Presentations
Invited Presentations in International Conferences; ‘ÛŠw‰ï‚ł̵‘Òu‰‰
1) G. Sazaki, S. Yanagiya, S.D. Durbin, S. Miyashita, T. Nakada, H. Komatsu, K. Watanabe, and M. Motokawa, "Effect of a magnetic field on the protein crystallization", Collected Abstracts in The Seventh International Conference of Crystallization of Biological Macromolecules, 204, Granada, Spain, May 1998.
2) G. Sazaki, S. Yanagiya, T. Sato, Y. Matsuura, N. Igarashi, M. Tanaka, S.D. Durbin, S. Miyashita, T. Ujihara, K. Fujiwara, N. Usami, H. Komatsu, K. Nakajima, and M. Motokawa, " Effects of a magnetic field on crystal growth processes of biological molecules " , in The Thirteenth International Conference on Crystal Growth in Conjunction with The Eleventh International Conference on Vapor Growth and Epitaxy, Kyoto, Japan, July 30-August 4, 2001.
3) G. Sazaki, T. Matsui, T. Ujihara, K. Fujiwara, N. Usami, K. Nakajima, "How to grow a protein crystal of better quality: proposals from crystal growth physics", Crystallogenesis and Protein Crystallography , Mexico City, Mexico, June 23-26, 2003.
4) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Control of the Grain Orientations of Organic Semiconductor PTCDA Thin Film Crystals Epitaxially Grown on Hydrogen-Terminated Si(111) Substrate", The Fourth Romanian Conference on Advanced Materials , Constanta, Romania, September 15-18, 2003.
5) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Effects of vicinal steps on the island growth and orientation of organic semiconductor PTCDA thin film crystals epitaxially grown on a hydrogen-terminated Si(111) substrate", Seminar Series in Crystal Growth: Commemoration of the 50th Birthday of Ege University, Izmir, Turky, June 30, 2005.
6) G. Sazaki, M. Okada, T. Matsui, H. Higuchi, T. Watanabe, K. Tsukamoto, K. Nakajima, "In-situ observation of elementary growth steps on a protein crystal, surface diffusion of protein molecules and dislocations inside a protein crystal", The 20th Congress of the International Union of Crystallography, Florence, Italy, August 23-31, 2005.
7) G. Sazaki, G. Dai, M. Okada, T. Watanabe, H. Higuchi, K. Tsukamoto, K. Nakajima, "In-situ observation of elementary growth processes of protein crystals by advanced optical microscopy", Interface Mineralogy, Sendai, Japan, September 28-30, 2005.
8) G. Sazaki, M. Okada, G. Dai, T. Matsui, K. Tsukamoto, T. Watanabe, H. Higuchi, K. Nakajima, "Molecular level in situ observation of elementary growth processes of protein crystals by advanced optical microscopy", 3rd Asian Conference on Crystal Growth and Crystal Technology, Beijing, China, October, 16-19, 2005.
9) G. Sazaki, M. Okada, G. Dai, A. Van Driessche, F. Otalora, T. Matsui, K. Tsukamoto, K. Nakajima, "Molecular level in-situ observations of elementary growth processes of protein crystals by advanced optical microscopy", 19th General Meeting of the International Mineralogical Association, Kobe, Japan, July 23-28, 2006. yŠî’²u‰‰z
10) G. Sazaki, M. Okada, G. Dai, A. Van Driessche, F. Otalora, T. Matsui, T. Watanabe, H. Higuchi, K. Tsukamoto, K. Nakajima, "Direct observations of elementary growth processes of protein crystals: elucidation of defects formation mechanisms", 11th International Conference on Crystallization of Biological Macromolecules, QueLbec, Canada, August 16-21, 2006.
11) G. Sazaki, G. Dai, A.S.E. Van Driessche, I. Yoshizaki, T. Matsui, F. Otalora, K. Tsukamoto, K. Nakajima, "Application of single molecule visualization to protein crystallization", 15th International Conference on Crystal Growth, Salt Lake City, USA, August 12-17, 2007.
12) K. Tsukamoto, P. Dold, G. Sazaki, "Application of high-resolution interferometry to the growth of lysozyme crystals at wide ranges of supersaturation" , in The 15 th International Conference on Crystal Growth, Salt Lake City, Utah, August 12-17 (2007).
13) G. Sazaki, G. Dai, H. Kawahara, A.E.S. Van Driessche, F. Otalora, K. Tsukamoto, K. Nakajima, Y. Mori, "Elementary growth processes of protein crystals revealed by single-molecule visualization", The 4th Asian Conference on Crystal Growth and Crystal Technology, Sendai, Japan, May 21-24 (2008). yŠî’²u‰‰z
14) G. Sazaki, G. Dai, A.S.E. Van Driessche, I. Yoshizaki, T. Matsui, F. Otalora, K. Tsukamoto, K. Nakajima, "Single-molecule visualization on a protein crystal surface", The 21th Congress and General Assembly of International Union of Crystallography, Osaka, Japan, Augst 24-29, 2008.
15) G. Sazaki, "Elementary growth processes of protein crystals revealed by advanced optical microscopy", March Annual Workshop 2009 of the World Premier International Research Center-Advanced Institute for Materials Research, Tohoku University, Sendai, Japan, March 1-6, 2009.
16) G. Sazaki, S. Zepeda, S. Nakatsubo, Y. Furukawa, "Optical in-situ observation of ice crystal surfaces", The 2nd International Symposium: Interface Mineralogy, Sendai, March 9-12, 2009.
17) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Direct visualization of elementary steps and quasi-liquid layers at air-ice interfacdes by advanced optical microscopy", Institute of Low Temperature Science (ILTS) International Symposium "Frontier of Low Temperature Science", Sapporo, Japan, November 9-10, 2009.
18) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Direct observation of elementary growth processes of ice crystals by advanced optical microcopy", Tutorial Lectures and Interdisciplinary Conference on Mathematical Aspects of Crystal Growth, Sapporo, Japan, July 12-Aug. 13, 2010. (Gave a presentation on July 26)
19) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, " The appearances of two types of quasi-liquid layers at air-ice crystal interfaces observed by advanced optical microscopy", The 16th International Conference on Crystal Growth, Beijing, China, August 8-13, 2010.
20) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Two types of quasi-liquid layers at air-ice interfaces visualized by advanced optical microscopy", The 12th International Conference on the Physics and Chemistry of Ice, Sapporo, Japan, September 5-10, 2010.
21) G. Sazaki, Y. Furukawa, "In-situ observation of crystal growth processes by advanced optical microscopy", 2010 MRS Fall Meeting, Boston, USA, November 29-December 3, 2010.
22) G. Sazaki, gIn-situ optical observation for elucidating antifreeze mechanism of water by proteinsh, AS-JST Joint Workshop on Innovative Use of Light and Nano/bio Materials, Taipei, Taiwan, May 26-27, 2011. yŠî’²u‰‰z
23) G. Sazaki, S. Zepeda, S. Nakatsubo1, E. Yokoyama, Y. Furukawa, gAppearance of a novel quasi-liquid layer at air-ice interfaces visualized by advanced optical microscopyh, Symposium DD: CGCT-5 Fundamentals of Crystallization and Low Dimentional Crystallization, International Conference on Materials for Advanced Technologies, Suntec, Singapore, Jun 26-Jul 1, 2011.
24) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokomine, Y. Furukawa, gDirect visualization of crystal growth processes by advanced optical microscopyh, The 1st International Symposium on Fusion Materials, Toba, Japan, October 16-18, 2011.
25) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gIn-situ observation of emergeneces of quasi-liquid layers from ice basal faces by advanced optical microscopyh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
26) K. Tsukamoto, I. Yoshizaki, Y. Suzuki, H. Miura, G. Sazaki, M. Tachibana, K. Murayama, K. Oshi, J.M. Garcia-Ruiz, gGrowth mechanism of lysozyme crystals in the international space station based on the analysis of in-situ interferometric observationh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013. yŠî’²u‰‰z
27) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gThermodynamic stabilities of quasi-liquid layers on ice basal facesh, 2nd Fusion Materials Special Meeting, Tokyo, Japan, October 27-28, 2013.
28) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gHow do quasi-liquid layers emerge from ice crystal surfaces?h, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014.
29) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, gThermodynamic stabilities of two types of quasi-liquid layer phases on ice basal facesh, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014.
30) S. Sugiyama, H. Matsumura, G. Sazaki, M. Maruyama, Y. Takahashi, H. Yoshikawa, M. Yoshimura, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, gGrowth of protein crystals in hydrogels with high strengthh, 15th International Conference on the Crystallization of Biological Macromolecules, Hamburg, Germany, September 17-20, 2014.
31) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "In situ observation of surface melting processes of ice crystals by advanced optical microscopy", International Symposium on Semiconductor Materials and Devices, Crystal Growth Centre, Anna University, Chennnai, India, February 2-5, 2015.
32) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "The appearance of quasi-iquid layers on ice crystal surfaces", The 11th International Conference on Ceramic Materials and Components for Energy and Environmental Application, Vancouver, Canada, June 14-19 (2015).
33) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "Molecular-level in-situ observation of the surface melting of ice crystals by advanced optical microcopy", Crystal Growth & Assembly, Gordon Research Conference, University of New England, Biddeford, USA, June 28 | July 3, 2015.
34) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo and Y. Furukawa, "In situ observation of ice crystal surfaces by advanced optical microscopy", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
35) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo and Y. Furukawa, "Surface melting of ice crystals observed by advanced optical microscopy", The 7th Japan-China-Korea Joint Conference on MEMS/NEMS, Sapporo Education and Culture hall, Sapporo, Japan, September 22-23, 2016.
36) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo and Y. Furukawa, "In-situ observation of surface melting of ice crystals by advanced optical microscopy", The 2nd International Workshop on Heterogeneous Kinetics Related Atmospheric Aerozols, Tsukuba International Congress Center, Tsukuba, Japan, November 12-14, 2016.
37) G. Sazaki, Ken-ichiro Murata, Masahiro Inomata, Jialu Chen, Ken Nagashima, Yoshinori Furukawa, "In-situ observation ov ice crystal surfaces at the molecular level by advanced optical microscopy", 21st American Conference on Crystal Growth and Epitaxy, 18th US Workshop on Organometallic Vapor Phae Epitaxy, and 3rd Symposium on 2D Electric Materials and Symposium on Epitaxy of Complex Oxides, Santa Fe, New Mexico, USA, July 31-August 4, 2017.
38) Y. Furukawa, K. Nagashima, S. Nakatsubo, K. Murata, G. Sazaki, "Anisotropic impurity effect for ice crystal growth in supercooled water", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iu‰‰‚Í1ŒŽ8“újyŠî’²u‰‰z
39) G. Sazaki, K. Murata, K. Nagashima, M. Inomata, J. Chen, Y. Furukawa, "In-situ observation of quasi-liquid layers on ice crystal surfaces by advanced optical microscopy", 8th SFG Symposium, JA Kyosai Saitama Building, Omiya, Japan, October 26-27, 2018.
40) G. Sazaki, K. Murata, K. Nagashima, M. Inomata, J. Chen, Y. Furukawa, "The surface melting of ice crystals", International Symposium & School on Crystal Growth Fundamentals, Hotel Sakan, Sendai, Japan, November 3-7, 2018. iu‰‰‚Í11ŒŽ6“új
41) K. Murata, G. Sazaki, "In-situ observations of step dynamics on growing interfaces between ice and supercooled water", The 19th International Conference on Crystal Growth and Epitaxy, Keystone, Colorado, USA, Jully 28-August 2, 2019. iu‰‰‚Í7ŒŽ31“új
42) G. Sazaki, M. Inomata, K. Murata, K. Nagashima, J. Chen, Y. Furukawa, "In-situ optical microscopic observation of ice crystal surfaces", The 19th International Conference on Crystal Growth and Epitaxy, Keystone, Colorado, USA, Jully 28-August 2, 2019. iu‰‰‚Í8ŒŽ1“új
43) G. Sazaki, K. Murata, K. Nagashima, Y. Furukawa, "Surface melting of ice crystals visualized by advanced optical microscopy", The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo, Japan, September 23-27, 2019. iu‰‰‚Í9ŒŽ25“új yŠî’²u‰‰z
Invited Presentations in Japanese Conferences; ‘“àŠw‰ï‚ł̵‘Òu‰‰
1) ²í•@Œ³C–ö’JLˆê˜YC Stephen D. Durbin C‹{‰º@“NC‰FŽ¡Œ´@“OC‰F²”ü“¿—²C’†“ˆˆê—YC–{‰ÍŒõ”ŽCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥êŒø‰ÊvC‘æ 31 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|WC 2000 ”N 7 ŒŽ 26-28 “ú , 2000.
2) ²í•@Œ³C’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»FŒ‹»¬’·Šw‚ª‚Ç‚±‚Ü‚Å‚¨–ð‚É—§‚Ä‚é‚Ì‚©vC“ú–{¶•¨•¨—Šw‰ï‘æ 39 ‰ñ”N‰ïCƒVƒ“ƒ|ƒWƒEƒ€u’`”’Ž¿Œ‹»Šw‚Ì–³ŒÀ‚̉”\«‚ÉŒü‚¯‚ÄvC 2001 ”N 10 ŒŽ .
3) ²í•@Œ³C“¡–ì‘ì•âC‰F²”ü“¿—²C‰FŽ¡Œ´“OC“¡Œ´qŽOC’†“ˆˆê—YCu—L‹@”¼“±‘Ì”––Œ‚̃Gƒsƒ^ƒLƒVƒƒƒ‹¬’·‚ÆŒ‹»—±‚Ì”zŒü§Œä‚ɂ‚¢‚ÄvC‘æ 50 ‰ñ‰ž—p•¨—Šw‰ïŠÖŒW˜A‡u‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u—L‹@”¼“±‘Ì”––ŒŒ‹»‰»‚ÌŒ»óF‚Ç‚±‚Ü‚Å‚í‚©‚Á‚Ä‚¢‚é‚Ì‚©vC 2003 ”N 3 ŒŽC_“Þì‘åŠw .
4) ²í•@Œ³CŒSŽi@“ÖC¼•û@“ÂC‰F²”ü“¿—²C”ˌުC‰FŽ¡Œ´“OC“¡Œ´qŽOC’†“ˆˆê—YCu—L‹@”¼“±‘Ì”––ŒŒ‹»‚Ì—±¬’·§Œä‚ɂ‚¢‚ÄvCt‹G‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u—L‹@”¼“±‘Ì”––ŒŒ‹»‰»‚ÌŒ»óF”zŒü§Œä‚Ƭ’·vC 2004 ”N 3 ŒŽC“Œ‹žH‰È‘åŠw .
5) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì•ªŽqƒŒƒxƒ‹EƒŠƒAƒ‹ƒ^ƒCƒ€‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï‘æ 59 ‰ñ”NŽŸ‘å‰ïCƒVƒ“ƒ|ƒWƒEƒ€uƒoƒCƒIƒNƒŠƒXƒ^ƒŠƒ[[ƒVƒ‡ƒ“C\‘¢ƒQƒmƒ€‰ÈŠwCƒoƒCƒIƒCƒ“ƒtƒHƒ}ƒeƒBƒNƒX`‚»‚Ì‚Rd“_‚ÉoŒ»‚·‚éV phase ‚Ì”Œ©`vC 2004 ”N‚RŒŽC‹ãB‘åŠwD
6) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC“n•Ó•üMC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–Ê‚Å‚Ì’PˆÊ¬’·ƒXƒeƒbƒv‚¨‚æ‚Ñ•\–ÊŠgŽU•ªŽq‚Ì‚»‚ÌêŠÏŽ@F‹‘啪Žq‚ð—˜—p‚·‚邱‚ƂŬ’·‘f‰ß’ö‚𖾂炩‚É‚·‚évC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cƒoƒ‹ƒN•ª‰È‰ïƒVƒ“ƒ|ƒWƒEƒ€C 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwD
7) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC“n•Ó•üMC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì•ªŽqƒŒƒxƒ‹‚»‚ÌêŠÏŽ@vC‘æ 70 ‰ñ‰»ŠwHŠw‰ï”N‰ï»Í‹Zp•ª‰È‰ïu‰‰‰ïC 2005 ”N 3 ŒŽCˆ¤’mŒ§Â”N‰ïŠÙD
8) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC“n•Ó•üMC”óŒûG’jC’†“ˆˆê—YCuƒŒ[ƒU[‹¤Å“_”÷•ªŠ±ÂŒ°”÷–@‚¨‚æ‚Ñ‘S”½ŽËŒuŒõŠÏŽ@Œ°”÷–@‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC“ú–{¶•¨•¨—Šw‰ï‘å 43 ‰ñ (2005 ”N“x ) ”N‰ïC 2005 ”N 11 ŒŽCŽD–yƒRƒ“ƒxƒ“ƒVƒ‡ƒ“ƒZƒ“ƒ^[D
9) ²í•@Œ³C‰ª“c‰ëŽjC Dai Guoliang C¼ˆä‘ñ˜YC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·‘f‰ß’ö‚Ì•ªŽqƒŒƒxƒ‹‚»‚ÌêŠÏŽ@F‹‘啪Žq‚ðŽg‚Á‚Ä•\–Ê‘f‰ß’ö‚ðŠÏ‚évC“ú–{•¨—Šw‰ï 2006 ”NH‹G‘å‰ïC 2006 ”NC 9 ŒŽCç—t‘åŠwD
10) ²í•@Œ³C’†“ˆˆê—YCu‹‘啪Žqiƒ^ƒ“ƒpƒNŽ¿j‚ł݂錋»‚̬’·‘f‰ß’övC“ú–{‰»Šw‰ï—L‹@Œ‹»•”‰ï‘æ 15 ‰ñ—L‹@Œ‹»ƒVƒ“ƒ|ƒWƒEƒ€C 2006 ”N 11 ŒŽCˆ¤•Q‘åŠwD
11) ²í•@Œ³CuŒÅ‰tŠE–Ê‚Å‚ÌŒ‹»¬’·‘f‰ß’ö‚ð‹‘啪Žqƒ^ƒ“ƒpƒNŽ¿‚ð—p‚¢‚ÄŠÏ‚évC‘æ38‰ñƒZƒ~ƒRƒ“ƒtƒ@ƒŒƒ“ƒXuƒiƒmƒ}ƒeƒŠƒAƒ‹‚Æ“d‹C‰»Šw‚ÌÚ“_vC 2006 ”N 12 ŒŽCƒ^ƒJƒ~ƒ„—Ú—ž‹äŠyƒŠƒ][ƒgD
12) ²í•@Œ³C¼•û@“ÂC J.T. Sadowski, A. Al-Mahboob, “¡ìˆÀmC{“¡²ŽOCŸNˆä—˜—YC’†“ˆˆê—YCuƒyƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚Ì‘½Œ‹»ƒhƒƒCƒ“\‘¢‚̉Ž‹‰»‚Æ‚»‚Ì”’B‹@\vC‘æ 54 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u“ú–{ŠwpU‹»‰ï‘æ 161 ˆÏˆõ‰ïŠé‰æF—L‹@”¼“±‘Ì”––ŒŒ‹»‰»‚ÌŒ»óFƒGƒsƒ^ƒLƒVƒƒƒ‹¬’·‹@\‚ÆŒ‹»•iŽ¿vC 2007 ”N 3 ŒŽCÂŽRŠw‰@‘åŠw‘Š–ÍŒ´ƒLƒƒƒ“ƒpƒX .
13) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YCDai GuoliangC’Ë–{Ÿ’jC’†“ˆˆê—YCu ŒÅ‰tŠE–Ê‚Å‚ÌŒ‹»¬’·‘f‰ß’ö‚Ì‚•ª‰ðŒõŠwŠÏŽ@vC“d‹C‰»Šw‰ï‘æ74‰ñ‘å‰ï ,2007”N3ŒŽC“Œ‹ž—‰È‘åŠw–ì“cƒLƒƒƒ“ƒpƒXD
14) ²í•@Œ³C Alexander E.S. Van Driessche, Guoliang Dai, ’Ë–{Ÿ’jC’†“ˆˆê—YCuŒõŠwŒ°”÷‹Zp‚ÅŒ©‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‘f‰ß’övC 2008 ”NH‹G‘æ 69 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u—L‹@Œ‹»‚Í‚Ç‚±‚Ü‚Åi‰»‚·‚é‚©i—L‹@Œ‹»¬’·‚ÌÅV“®Œü‚ÆŒõ‹@”\‚Ì”Œ»jvC 2008 ”N 9 ŒŽC’†•”‘åŠwD
15) ²í•@Œ³C Alexander Van Driessche, Guoliang Dai, Fermin Otalora, ’Ë–{Ÿ’jC’†“ˆˆê—YCu‚•ª‰ðŒõŠwŒ°”÷–@‚ÅŒ©‚é—n‰t¬’·‰ß’övC
ƒVƒ“ƒ|ƒWƒEƒ€FŒ‹»¬’·Šî‘bE•]‰¿•ª–삨‚æ‚уoƒCƒI—L‹@ƒ}ƒeƒŠƒAƒ‹•ª–ì‚É‚¨‚¯‚éŋ߂̃gƒsƒbƒNƒX‚©‚çC‘æ 38 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2008 ”N 11 ŒŽCíЕœ‹»‹L”O‰ïŠÙCå‘äD
16) ŠÛŽR”ü”¿ŽqC’Ë–{Ÿ’jC²í•@Œ³C Peter G. Vekilov Cu¬’·‚·‚é•û‰ðΕ\–ʂł̃Lƒ‰ƒ‹‚È•ªŽq‚Ì‹““®‚Ì’¼ÚŽ‹Šo‰»‚Æ‹z’…ˆÊ’u‚Ì•]‰¿vC
ƒVƒ“ƒ|ƒWƒEƒ€FŒ‹»¬’·Šî‘bE•]‰¿•ª–삨‚æ‚уoƒCƒI—L‹@ƒ}ƒeƒŠƒAƒ‹•ª–ì‚É‚¨‚¯‚éŋ߂̃gƒsƒbƒNƒX‚©‚çC‘æ 38 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2008 ”N 11 ŒŽCíЕœ‹»‹L”O‰ïŠÙCå‘äD
17) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCuጋ»•\–Ê‚Ì•ªŽq‚‚³ƒXƒeƒbƒv‚ÌŒõŠw’¼ÚŠÏŽ@vCá•X•¨«•ª‰È‰ïƒVƒ“ƒ|ƒWƒEƒ€(2009”N10ŒŽ2“ú)C“ú–{á•XŠw‰ïá•XŒ¤‹†‘å‰ï2009, 2009”N9ŒŽ29-10ŒŽ3“úC–kŠC“¹‘åŠwD
18) ²í•@Œ³Cu‚•ª‰ðŒõŠwŒ°”÷‹Zp‚ÌŠJ”‚Æ‚±‚ê‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‹@\‚Ì•ªŽqƒŒƒxƒ‹‚ł̉ð–¾vC“ú–{Œ‹»¬’·Šw‰ï‘æ26‰ñ˜_•¶ÜŽóÜ‹L”Ou‰‰C‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
19) ²í•@Œ³CDai GuoliangCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷–@‚ÅŒ©‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‰ß’öF—nŽ¿•ªŽq‚Ì‹z’…‘f‰ß’övC—̈æ‚XƒVƒ“ƒ|ƒWƒEƒ€F‹‘啪Žq`ƒTƒuƒ~ƒNƒƒ“—±Žq‚ÌŽ©ŒÈWÏC“ú–{•¨—Šw‰ï2011”NH‹G‘å‰ïC 2011”N9ŒŽ21-24“úC•xŽR‘åŠwD
20) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêCŒÃì‹`ƒCu’´‚Š´“x‹¤Å“_”÷•ªŠ±ÂŒ°”÷‹¾‚É‚æ‚é•X‚ÌŒ‹»¬’·‰ß’ö‚Ì’¼ÚŠÏŽ@vCƒVƒ“ƒ|ƒWƒEƒ€FŒõŠw‚ªØ‚è‘ñ‚•ª–쉡’fŒ¤‹†C“ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïC2011”N11ŒŽ28-30“úC‘åã‘åŠwD
21) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒn‚ÅŒ©‚é•XŒ‹»‚Ì•ªŽqƒXƒeƒbƒv‚Æ•\–Ê—Z‰ðvCƒVƒ“ƒ|ƒWƒEƒ€F•\–ÊEŠE–Ê‚É‚¨‚¯‚é…‚Ì‹““®‚Æ–ðŠ„C‘æ31‰ñ•\–ʉȊwŠwpu‰‰‰ï,2011”N12ŒŽ15-17“úCƒ^ƒ[ƒz[ƒ‹‘D–xD
22) ²í•@Œ³CƒTƒ‹ƒoƒh[ƒ‹Eƒ[ƒyƒ_C’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷‹¾‚Å‚Ý‚é•XŒ‹»‚̬’·‘f‰ß’ö‚Æ•\–Ê—Z‰ðvC‘æ4‰ñŒ¤‹†¬W‰ïFH•i‚Æ…C“ú–{H•i‰ÈŠwHŠw‰ï‘æ59‰ñ‘å‰ïC2012”N8ŒŽ30“úC“¡—Žq‘åŠwD
23) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»’ê–Ê‚Å‚Ì•\–ʉt‘Ì‘Š‚̶¬‚Ƙc‚Ý‚ÌŒø‰ÊvCƒVƒ“ƒ|ƒWƒEƒ€FŒ‹»•\–Ê---Å‹ß‚Ì—˜_‚Æ‚»‚ÌêŠÏŽ@C‘æ42‰ñŒ‹»¬’·‘“à‰ï‹cC2012”N11ŒŽ9-11“úC‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXD
24) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»’ê–Ê‚Å‚Ì•\–ʉt‘Ì‘Ši‹[Ž—‰t‘Ì‘wj‚̶¬‚Ƙc‚Ý‚ÌŒø‰ÊvC2013”N“ú–{Œ‹»¬’·Šw‰ï“Á•Êu‰‰‰ïFƒoƒCƒI—L‹@•¨Ž¿‚É‚¨‚¯‚錋»¬’·-‚»‚ÌŠî‘b‚Ɖž—p-C2013”N5ŒŽ17“úCƒLƒƒƒ“ƒpƒXƒCƒmƒx[ƒVƒ‡ƒ“ƒZƒ“ƒ^[“Œ‹ž‘Û‰ï‹cŽºD
25) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»•\–Ê‚Å‚Ì‹[Ž—‰t‘Ì‘w¶¬‰ß’ö‚ÌŒõŠw‚»‚ÌêŠÏŽ@vCŽ‘Œ¹E‘fÞŠw‰ïC2013”N9ŒŽ3-5“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ3“új
26) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»•\–Ê‚ÌŒõŠw‚»‚ÌêŠÏŽ@F•\–Ê—Z‰ð‚É‚æ‚é‹[Ž—‰t‘Ì‘w‚̶¬vC‘æ40‰ñH•i‚Ì•¨«‚ÉŠÖ‚·‚éƒVƒ“ƒ|ƒWƒEƒ€C2013”N9ŒŽ20-21“úCƒ‹ƒ|[ƒ‹Ž]Šòi쌧‚¼ŽsjDiu‰‰‚Í9ŒŽ20“új
27) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷‹Zp‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðŒ»ÛvC‘æ9‰ñŠwۗ̈æ‚É‚¨‚¯‚镪ŽqƒCƒ[ƒWƒ“ƒOƒtƒH[ƒ‰ƒ€C2013”N10ŒŽ29“úCJAXA’²•zq‹ó‰F’ˆƒZƒ“ƒ^[
28) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»‚Ì•\–Ê—Z‰ð‰ß’ö‚Ì‚•ª‰ðŒõŠwŠÏŽ@vC“ú–{‰»Šw‰ï—L‹@Œ‹»•”‰ï‘æ22‰ñ—L‹@Œ‹»ƒVƒ“ƒ|ƒWƒEƒ€C2013”N10ŒŽ30“ú`11ŒŽ1“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í11ŒŽ‚P“új
29) ²í•@Œ³Cu•X‚ÌV‚µ‚¢—Z‚¯•û‚𔌩Fƒ[ƒ“xˆÈ‰º‚ÅŒ»‚ê‚é‚QŽí—ނ̉t‘̂ɂ‚¢‚ÄvC¢ŠEŒ‹»”N(IYCr2014)ƒI[ƒvƒjƒ“ƒOƒVƒ“ƒ|ƒWƒEƒ€C2014”N1ŒŽ23“úC“ú–{Šwp‰ï‹cu“°D
30) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u•XŒ‹»•\–Ê‚Ì‹[Ž—‰t‘Ì ‘w‚̶¬‹@\‚Æ ”M—ÍŠw“IˆÀ’è«vC—̈æ9, 11‡“¯ƒVƒ“ƒ|ƒWƒEƒ€u•X‚ÌŒ‹»¬’·-ŽÀŒ±‚ƃVƒ~ƒ… ƒŒ[ƒVƒ‡ƒ“‚É‚æ‚éÅ‹ß‚Ìi“WvC“ú–{•¨—Šw‰ï‘æ69‰ñ”NŽŸ‘å‰ïC2014”N3ŒŽ27-30“úC“ŒŠC‘åŠwÓìƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3/30j
31) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðvCÞ—¿EŠE–Ê“¢˜_‰ïuÞ—¿‘n»‚ÆŠE–ʧŒä‚ÌÅ‘OüvC‰»ŠwHŠw‰ï‘æ47‰ñH‹G‘å‰ïC2015”N9ŒŽ9-11“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/9j
32) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•CŒÃì‹`ƒ, u‚•ª‰ð”\ŒõŠwŒ°”÷‹¾‚ÅŒ©‚½•X‚Ì•\–Ê—Z‰ðvCƒVƒ“ƒ|ƒWƒEƒ€uH•i‚̃~ƒNƒ\‘¢‚ðŠÏ‚évCH•i‰ÈŠwHŠw‰ï‘æ63‰ñ‘å‰ïC2016”N8ŒŽ25-27“úC–¼é‘åŠw“V”’ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í8/26j
33) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u‚•ª‰ðŒõŠwŒ°”÷‹¾‚É‚æ‚é•X•\–Ê‚Å‚Ì‹[Ž—‰t‘Ì‘w¶¬‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC“ú–{^‹óŠw‰ï2016”N10ŒŽŒ¤‹†—á‰ïC“ú–{•\–ʉȊw‰ï2016”N“Œ–kE–kŠC“¹Žx•”Œ¤‹†‰ïCu^‹ó‚Æ…E•\–Ê‚Æ•XFg‹ß‚È•¨Ž¿‚Ì•¨—‚Ɖ»ŠwvC2016”N10ŒŽ6“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXD
34) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, uƒ[ƒŽˆÈ‰º‚̉·“x‚Å‚à—Z‚¯‚é•X•\–Ê‚Ì•sŽv‹cFŒ´Žq‚‚³‚ðŒ©•ª‚¯‚邱‚Æ‚ª‚Å‚«‚éŒõŠwŒ°”÷‹¾‚Å‚Ý‚½•XŒ‹»‚Ì•\–ÊvC‘æ41‰ñ“ú–{Œ°”÷‹¾Šw‰ïŠÖ“ŒŽx•”u‰‰‰ïC2017”N2ŒŽ25“úCŽY‹Æ‹Zp‘‡Œ¤‹†Š—ÕŠC•›“sSƒZƒ“ƒ^[D
35) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, uƒ[ƒŽˆÈ‰º‚̉·“x‚Å‚à”G‚ê‚Ä‚¢‚é•XŒ‹»•\–Ê‚Ì•sŽv‹cF‚QŽí—Þ‚Ì‹[Ž—‰t‘Ì‘wvC‘æ62‰ñ’ቷ¶•¨HŠw‰ï‘å‰ïC2017”N5ŒŽ20-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í5ŒŽ20“új
36) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u•XŒ‹»•\–Ê‚Ì‚•ª‰ðŒõŠwƒCƒ[ƒWƒ“ƒOF2Ží—Þ‚Ì‹[Ž—‰t‘Ì‘w‚̶¬‚ɂ‚¢‚ÄvC2018”N“x“ú–{•ªŒõŠw‰ï–kŠC“¹Žx•”ƒVƒ“ƒ|ƒWƒEƒ€u•ªŒõƒCƒ[ƒWƒ“ƒO‚ÌŒ»Ý‚Æ–¢—ˆvC2019”N2ŒŽ1“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXD
37) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•X‚Ì•\–Ê—Z‰ðF2Ží—Þ‚Ì‹[Ž—‰t‘Ì‘w‚Æ‚»‚̶¬‹@\vC“ú–{ƒSƒ€‹¦‰ï‘æ117‰ñƒgƒ‰ƒCƒ{ƒƒW[Œ¤‹†•ª‰È‰ïC2019”N5ŒŽ15“úC“Œ•”ƒrƒ‹‚PŠK‰ï‹cŽºi“Œ‹ž“s`‹æjD
38) ²í•@Œ³C‘º“cŒ›ˆê˜YC’·“ˆ@Œ•CŒÃì‹`ƒCuƒ[ƒ°CˆÈ‰º‚̉·“x‚Å‚à—Z‚¯‚Ä‚¢‚é•X•\–Ê‚Ì•sŽv‹cvC‘æ80‰ñ‹L”OƒVƒ“ƒ|ƒWƒEƒ€u–kˆÜ43°‚©‚ç‚Ì“Æ‘nŒ¤‹†”MvC2019”N‘æ80‰ñ‰ž—p•¨—Šw‰ïH‹GŠwpu‰‰‰ïC2019”N9ŒŽ18-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ20“új
39) ²í•@Œ³C‘º“cŒ›ˆê˜YC’·“ˆ@Œ•CŒÃì‹`ƒC–ƒì–¾rCu‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðvCƒVƒ“ƒ|ƒWƒEƒ€uSY-81 Œ‹»‰»Œ»Û‚¨‚æ‚ѻ͑€ì‚ÌV“WŠJvC‰»ŠwHŠw‰ï‘æ51‰ñH‹G‘å‰ïC2020”N9ŒŽ24-26“úCŠâŽè‘åŠwDiu‰‰‚Í9ŒŽ24“új
40) ²í•@Œ³C‘º“cŒ›ˆê˜YC’·“ˆ Œ•CŒÃì‹`ƒCuŒõ•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðvC—L‹@ƒGƒŒƒNƒgƒƒjƒNƒXÞ—¿Œ¤‹†‰ï‘æ249‰ñu”ñ•½tŒ»ÛvC2022”N4ŒŽ22“úCZoom‚É‚æ‚郊ƒ‚[ƒgŠJÃD
41) —é–Ø—Ç®C’Ë–{Ÿ’jC²í•@Œ³C“ñ‹{@ˆ¤C•ŸŽR½“ñ˜YC“‡‰ª‘¾˜YC‰iˆä³ŒbC‘]ª••FC˜a’mTŒáCrˆäN’qC‹gè@òC_–ì^GC’؈ä@—DC–ö’JLˆê˜YC¼”ö”ÉŽ÷Cu‚»‚ÌêŠÏŽ@‚É‚æ‚錋»¬’·‹@\‚̉ð–¾vC“ú–{ƒZƒ‰ƒ~ƒbƒNƒX‹¦‰ï‘æ35‰ñH‹GƒVƒ“ƒ|ƒWƒEƒ€C2022”N9ŒŽ14`16“úC“¿“‡‘åŠwíŽO“‡ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ15“új
42) ²í• Œ³C‘º“cŒ›ˆê˜YC’·“ˆ Œ•CŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»•\–Ê‚Å‚Ì‘Š“]ˆÚŒ»ÛvC“ú–{MRS…‘f‰ÈŠw‹Zp˜AŒgŒ¤‹†‰ï‘æ8‰ñƒgƒsƒbƒNƒXŒ¤‹†‰ïC2023”N5ŒŽ19“úCƒŠƒ‚[ƒgŠJÃDiu‰‰‚Í5ŒŽ19“új
International Conferences; ‘Û‰ï‹cƒvƒƒV[ƒfƒBƒ“ƒOƒXE”•\
‚PDCrystal growth of ice/snow and related materials; áE•X‚¨‚æ‚ÑŠÖ˜AÞ—¿‚ɂ‚¢‚Ä
1-1) G. Sazaki, S. Zepeda, S. Nakatsubo, Y. Furukawa, "Optical in-situ observation of ice crystal surfaces", The 2nd International Symposium: Interface Mineralogy, Sendai, Japan, March 9-12, 2009. yInvited; µ‘Òu‰‰z
1-2) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Direct visualization of elementary steps and quasi-liquid layers at air-ice interfacdes by advanced optical microscopy", Institute of Low Temperature Science (ILTS) International Symposium "Frontier of Low Temperature Science", Sapporo, Japan, November 9-10, 2009. yInvited; µ‘Òu‰‰z
1-3) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Direct observation of elementary growth processes of ice crystals by advanced optical microcopy", Tutorial Lectures and Interdisciplinary Conference on Mathematical Aspects of Crystal Growth, Sapporo, Japan, July 12-Aug. 13, 2010. (Gave a presentation on July 26) yInvited; µ‘Òu‰‰z
1-4) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, " Direct visualization of elementary steps at air-ice crystal interfaces by advanced optical microscopy", The 16th International Conference on Crystal Growth, Beijing, China, August 8-13, 2010.
1-5) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, " The appearances of two types of quasi-liquid layers at air-ice crystal interfaces observed by advanced optical microscopy", The 16th International Conference on Crystal Growth, Beijing, China, August 8-13, 2010. yInvited; µ‘Òu‰‰z
1-6) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Direct observation of elementary steps at air-ice interfaces by advanced optical microscopy", The 12th International Conference on the Physics and Chemistry of Ice, Sapporo, Japan, September 5-10, 2010.
1-7) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Two types of quasi-liquid layers at air-ice interfaces visualized by advanced optical microscopy", The 12th International Conference on the Physics and Chemistry of Ice, Sapporo, Japan, September 5-10, 2010. yInvited; µ‘Òu‰‰z
1-8) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "A novel quasi-liquid layer found at an air-ice interface", The 8th Japan-China-Korea Workshop on Microgravity Science for Asian Microgravity Pre-Symposium, Sendai, Japan, September 22-24, 2010.
1-9) G. Sazaki, Y. Furukawa, "In-situ observation of crystal growth processes by advanced optical microscopy", 2010 MRS Fall Meeting, Boston, USA, November 29-December 3, 2010. yInvited; µ‘Òu‰‰z
1-10) G. Sazaki, gIn-situ optical observation for elucidating antifreeze mechanism of water by proteinsh, AS-JST Joint Workshop on Innovative Use of Light and Nano/bio Materials, Taipei, Taiwan, May 26-27, 2011. yKeynote lecture; Šî’²u‰‰z
1-11) G. Sazaki, S. Zepeda, S. Nakatsubo1, E. Yokoyama, Y. Furukawa, gAppearance of a novel quasi-liquid layer at air-ice interfaces visualized by advanced optical microscopyh, Symposium DD: CGCT-5 Fundamentals of Crystallization and Low Dimentional Crystallization, International Conference on Materials for Advanced Technologies, Suntec, Singapore, Jun 26-Jul 1, 2011. yInvited; µ‘Òu‰‰z
1-12) G. Sazaki, S. Nakatsubo, Y. Furukawa, gDirect visualization of effects of antifreeze protein by advanced optical microscopy: step bunching and oscillatory growthh, The 1st International Conference on Ice-Binding Proteins, Kingston, Canada, August 3-6, 2011.
1-13) T. Kiyota, G. Sazaki, S. Zepeda, Y. Uda, Y. Furukawa, gIn-situ observation of recrystallization processes of ice crystals including AFP type IIIh, The 1st International Conference on Ice-Binding Proteins, Kingston, Canada, August 3-6, 2011.
1-14) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokomine, Y. Furukawa, gDirect visualization of crystal growth processes by advanced optical microscopyh, The 1st International Symposium on Fusion Materials, Toba, Japan, October 16-18, 2011. yInvited; µ‘Òu‰‰z
1-15) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gIn-situ observation of emergeneces of quasi-liquid layers from ice basal faces by advanced optical microscopyh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013. yInvited; µ‘Òu‰‰z
1-16) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, gThermodynamic stabilities of two types of quasi-liquid layers on basal faces of ice crystalsh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
1-17) K Nagashima, G. Sazaki, H. Asakawa, Y. Furukawa, gAtomic or molecular resolution investigation of soluble crystals in liquid by frequency-modulation (non-contat) AFMh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
1-18) D. Vorontsov, G. Sazaki, S.H. Hyon, K. Matsumura, Y. Furukawa, gEffects of carboxylated e-poly-L-lysine on crystallization of iceh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
1-19) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gThermodynamic stabilities of quasi-liquid layers on ice basal facesh, 2nd Fusion Materials Special Meeting, Tokyo, Japan, October 27-28, 2013. yµ‘Òu‰‰z
1-20) Y. Furukawa, G. Sazaki, K. Nagashima, H. Asakawa, E. Yokoyama, S. Zepeda, Y. Nishimura, gOscillatory growth of ice crystal in the solution of antifreeze glycoproteinh, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014.
1-21) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gHow do quasi-liquid layers emerge from ice crystal surfaces?h, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014. yµ‘Òu‰‰z
1-22) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, gDouble spiral steps on Ih ice crystal surfaces grown from water vapor just below the melting pointh, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014.
1-23) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, gThermodynamic stabilities of two types of quasi-liquid layer phases on ice basal facesh, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014. yµ‘Òu‰‰z
1-24) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, gGrowth kinetics of elementary steps on ice basal faces grown from supersaturated water vaporh, 13th International Conference on the Physics and Chemistry of Ice (PCI-2014), Dartmouth College, Hanover, USA, March 17-20, 2014.
1-25) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, gGrowth kinetics of elementary steps on ice basal faces grown from saturated water vaporh, 6th Asian Conference on Crystal Growth and Crystal Technology, Jeju, Korea, June 11-14, 2014. iu‰‰‚Í6ŒŽ12“új
1-26) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, gGeneration of two types of quasi-liquid-layer phases on ice basal facesh, 6th Asian Conference on Crystal Growth and Crystal Technology, Jeju, Korea, June 11-14, 2014. iu‰‰‚Í6ŒŽ12“új
1-27) D. Vorontsov, G. Sazaki, S.H. Hyon, K. Matsumura, Y. Furukawa, gGrowth of ice crystals in the presence of carboxylated e-poly-L- lysineh, 6th Asian Conference on Crystal Growth and Crystal Technology, Jeju, Korea, June 11-14, 2014. iƒ|ƒXƒ^[‚Í6ŒŽ13“új
1-28) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "In situ observation of surface melting processes of ice crystals by advanced optical microscopy", International Symposium on Semiconductor Materials and Devices, Crystal Growth Centre, Anna University, Chennnai, India, February 2-5, 2015. iu‰‰‚Í2ŒŽ3“új yµ‘Òu‰‰z
1-29) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "The appearance of quasi-iquid layers on ice crystal surfaces", The 11th International Conference on Ceramic Materials and Components for Energy and Environmental Application, Vancouver, Canada, June 14-19 (2015). iu‰‰‚Í6ŒŽ16“új yµ‘Òu‰‰z
1-30) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "Molecular-level in-situ observation of the surface melting of ice crystals by advanced optical microcopy", Crystal Growth & Assembly, Gordon Research Conference, University of New England, Biddeford, USA, June 28 | July 3, 2015. iu‰‰‚Í6ŒŽ30“új yµ‘Òu‰‰z
1-31) Y. Furukawa, K. Nagashima, S. Nakatsubo, I. Yoshizaki, H. Tamaru, T. Shimaoka, T. Sone, E. Yokoyama, T. Maki, A. Yamamoto, H. Asakawa, K. Murata, G. Sazaki, "Oscillatory growth of ice basal face observed in supercooled water with antifreeze glycoprotein |Ice crystal 2 experiments-", The Joint Conference of 6th International Symposium on Physical Sciences in Space and 10th International Conference on Two-Phyase Systems for Space and Ground Applications, Kyoto, Japan, September 14-18, 2015. iu‰‰‚Í9ŒŽ18“új
1-32) D. A. Vorontsov, G. Sazaki, K. Nagashima, K. Murata, Y. Furukawa, "Effect of type III antifreeze protein on the morphology and growth kinetics of ice crystals", 12th International Workshop of the Crystal Growth of Organic Materials conjunction with 47th Annual British Association of Crystal Growth Conference, University of Leeds, UK, June 26-30, 2016. iƒ|ƒXƒ^[j
1-33) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo, Y. Furukawa, "In situ observation of ice crystal surfaces by advanced optical microscopy", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016. yµ‘Òu‰‰z
1-34) H. Asakawa, G. Sazaki, K. Murata, K Nagashima, S. Nakatsubo, Y. Furukawa, "Direct observation of surface melting on rough ice crystal surfaces", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
1-35) K. Murata, H. Asakawa, K. Nagashima, Y. Furukawa, G. Sazaki, " A simple physical model of surface melting on ice crystals", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
1-36) K. Nagashima, G. Sazaki, T. Hama, H. Asakawa, K. Murata, Y. Furukawa, "Direct visualization of quasi-liquid layers on ice crystal surfaces induced by hydrogen chloride gas", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
1-37) D.A. Vorontsov, G. Sazaki, K. Nagashima, K. Murata, Y. Furukawa, "Effects of type III antifreeze protein on the morphology and growth kinetics of ice crystals", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
1-38) Y. Furukawa, K. Nagashima, S. Nakatsubo, H. Tamaru, I. Yoshizaki, T. Shimaoka, T. Sone, E. Yokoyama, T. Maki, A. Yamamoto, H. Asakawa, K. Murata, G. Sazaki, "Oscillatory growth of ice crystal observed in supercooled water containing antifreeze glycoprotein", The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
1-39) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo and Y. Furukawa, "Surface melting of ice crystals observed by advanced optical microscopy", The 7th Japan-China-Korea Joint Conference on MEMS/NEMS, Sapporo Education and Culture hall, Sapporo, Japan, September 22-23, 2016. yµ‘Òu‰‰z
1-40) G. Sazaki, H. Asakawa, K. Murata, K. Nagashima, S. Nakatsubo and Y. Furukawa, "In-situ observation of surface melting of ice crystals by advanced optical microscopy", The 2nd International Workshop on Heterogeneous Kinetics Related Atmospheric Aerozols, Tsukuba International Congress Center, Tsukuba, Japan, November 12-14, 2016.yµ‘Òu‰‰z
1-41) G. Sazaki, Ken-ichiro Murata, Masahiro Inomata, Jialu Chen, Ken Nagashima, Yoshinori Furukawa, "In-situ observation ov ice crystal surfaces at the molecular level by advanced optical microscopy", 21st American Conference on Crystal Growth and Epitaxy, 18th US Workshop on Organometallic Vapor Phae Epitaxy, and 3rd Symposium on 2D Electric Materials and Symposium on Epitaxy of Complex Oxides, Santa Fe, New Mexico, USA, July 31-August 4, 2017. yµ‘Òu‰‰z
1-42) Y. Furukawa, "Anisotropic functions of antifreeze glycoproteins", The 3rd International Ice-Binding Protein Conference, Rehovot, Israel, August 14-17, 2017.
1-43) M. Bayer, "Ice-binding proteins from sea-ice diatoms: a study of protein-ice interaction", The 3rd International Ice-Binding Protein Conference, Rehovot, Israel, August 14-17, 2017.
1-44) D.A. Vorontsov, G. Sazaki, Y. Furukawa, K. Nagashima, K. Murata, Evgeniia Titaeva, "Growth of ice crystals in the presence of type III antifreeze protein", The 3rd International Ice-Binding Protein Conference, Rehovot, Israel, August 14-17, 2017.
1-45) Y. Furukawa, K. Nagashima, S. Nakatsubo, K. Murata, G. Sazaki, "Anisotropic impurity effect for ice crystal growth in supercooled water", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iu‰‰‚Í1ŒŽ8“újyŠî’²u‰‰z
1-46) K. Nagashima, G. Sazaki, T. Hama, K. Murata, Y. Furukawa, "Hydrochloric acid droplets on ice crystal surfaces embedded in ice by vapor growth", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iŒû“ª”•\‚Í1ŒŽ8“új
1-47) D. Vorontsov, G. Sazaki, Y. Furukawa, K. Nagashima, K. Murata, "Crystallization of ice in AFP-III solutions", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iƒ|ƒXƒ^[”•\‚Í1ŒŽ9“új
1-48) M. Inomata, K. Murata, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, G. Sazaki, "Temperature dependence of the growth kinetics of elementary spiral steps on ice basal faces grown from water vapor", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iƒ|ƒXƒ^[”•\‚Í1ŒŽ10“új
1-49) J. Chen, K. Nagashima, K. Murata, G. Sazaki, "Formation of quasi-liquid layers on polycrystalline ice", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iƒ|ƒXƒ^[”•\‚Í1ŒŽ10“új
1-50) K. Murata, K. Nagashima, G. Sazaki, "In situ observation of ice-water interface by advanced optical microscopy", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iŒû“ª”•\‚Í1ŒŽ11“új
1-51) M. Bayer-Giraldi, G. Sazaki, N. Azuma, M. Takata, S. Kipfstuhl, H. Kondo, Y. Furukawa, "Ice-binding proteins from a sea-ice diatom, their effect on ice growth and physical properties", 14th International Conference on the Physics and Chemistry of Ice (PCI-2018 in Zürich), Paul Scherrer Institut, Zürich, Switzerland, January 8-12, 2018. iŒû“ª”•\‚Í1ŒŽ11“új
1-52) G. Sazaki, K. Murata, K. Nagashima, M. Inomata, J. Chen, Y. Furukawa, "In-situ observation of quasi-liquid layers on ice crystal surfaces by advanced optical microscopy", 8th SFG Symposium, JA Kyosai Saitama Building, Omiya, Japan, October 26-27, 2018. iu‰‰‚Í10ŒŽ27“új yµ‘Òu‰‰z
1-53) G. Sazaki, K. Murata, K. Nagashima, M. Inomata, J. Chen, Y. Furukawa, "The surface melting of ice crystals", International Symposium & School on Crystal Growth Fundamentals, Hotel Sakan, Sendai, Japan, November 3-7, 2018. iu‰‰‚Í11ŒŽ6“új yµ‘Òu‰‰z
1-54) J. Chen, K. Murata, K. Nagashima, G. Sazaki, "Quasi-liquid layers on polycrystalline ice thin films", International Symposium & School on Crystal Growth Fundamentals, Hotel Sakan, Sendai, Japan, November 3-7, 2018. iƒ|ƒXƒ^[”•\‚Í11ŒŽ3-6“új
1-55) K. Nagashima, G. Sazaki, T. Hama, K. murata, Y. Furukawa, "Effects of acidic gasses on ice surfaces grown from water vapor", The 19th International Conference on Crystal Growth and Epitaxy, Keystone, Colorado, USA, Jully 28-August 2, 2019. iu‰‰‚Í7ŒŽ30“új
1-56) K. Murata, G. Sazaki, "In-situ observations of step dynamics on growing interfaces between ice and supercooled water", The 19th International Conference on Crystal Growth and Epitaxy, Keystone, Colorado, USA, Jully 28-August 2, 2019. iu‰‰‚Í7ŒŽ31“újyµ‘Òu‰‰z
1-57) J. Chen, K. Nagashima, K. Murata, G. Sazaki, "Quasi-liquid layers can exist on polycrystalline ice thin films at a temperature significantly lower than on ice single crystals", The 19th International Conference on Crystal Growth and Epitaxy, Keystone, Colorado, USA, Jully 28-August 2, 2019. iu‰‰‚Í7ŒŽ31“új
1-58) G. Sazaki, M. Inomata, K. Murata, K. Nagashima, J. Chen, Y. Furukawa, "In-situ optical microscopic observation of ice crystal surfaces", The 19th International Conference on Crystal Growth and Epitaxy, Keystone, Colorado, USA, Jully 28-August 2, 2019. iu‰‰‚Í8ŒŽ1“újyµ‘Òu‰‰z
1-59) G. Sazaki, K. Murata, K. Nagashima, Y. Furukawa, "Surface melting of ice crystals visualized by advanced optical microscopy", The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo, Japan, September 23-27, 2019. iu‰‰‚Í9ŒŽ25“újyŠî’²u‰‰z
1-60) G. Sazaki, J. Chen, K. Murata, K. Nagashima, "Surface melting of polycrystalline ice revealed by advanced optical microscopy", The 8th Crystal Growth and Crystal Technology (CGCT-8), Online, Japan, March 1-3, 2021. iu‰‰‚Í3ŒŽ3“új
1-61) G. Miyamoto, A. Kouchi, K. Murata, K. Nagashima, G. Sazaki, "Growth kinetics of elementary spiral steps on prism faces of ice crystals grown in vapor and their temperature dependence", The 20th International Conference on Crystal Growth and Epitaxy, Naples, Italy, July 30-August 4, 2023. iu‰‰‚Í8ŒŽ1“új
1-62) K. Murata, M. Sato, M. Uwaha, F. Saito, K. Nagashima, G. Sazaki, "Step-bunching instability of growing interfaces between ice and supercooled water", The 15th Internatinal Conference on the Physics and Chemistry of Ice (PCI-2023), Sapporo, Japan, September 3-8, 2023. iu‰‰‚Í9ŒŽ5“újyµ‘Òu‰‰z
1-63) G. Miyamoto, A. Kouchi, K. Murata, K. Nagashima, G. Sazaki, "Temperature dependence of the growth kineticsof elementary spiral steps on ice prism faces grown in vapor", The 15th Internatinal Conference on the Physics and Chemistry of Ice (PCI-2023), Sapporo, Japan, September 3-8, 2023. iu‰‰‚Í9ŒŽ5“új
1-64) K. Nagashima, K. Murata, G. Sazaki, "Uptake mechanism of atmospheric-concentration HCl gas in ice crystals via hydrochloric acid droplets", The 15th Internatinal Conference on the Physics and Chemistry of Ice (PCI-2023), Sapporo, Japan, September 3-8, 2023. iu‰‰‚Í9ŒŽ5“új
‚QDCrystal growth of protein and other biomaterials; ƒ^ƒ“ƒpƒNŽ¿‚¨‚æ‚Ѷ‘ÌŠÖ˜AÞ—¿‚ɂ‚¢‚Ä
2-1) H. Ooshima, G. Sazaki, K. Nishikawa, and Y. Harano, "Initial
stage of precipitation of enzyme protein (THERMOLYSIN)", International
Symposium on Preparation of Functional Materials and Industrial Crystallization
'89 OSAKA, Osaka, Japan, August 18-19, 1989: Proceedings of the International
Symposium on Preparation of Functional Materials and Industrial Crystallization
'89 OSAKA, pp.48-51, 1989.
2-2) H. Ooshima, G. Sazaki, and Y. Harano, "Effects of lysozyme
and some amino acids on precipitation of thermolysin", 11th Symposium on
Industrial Crystallization, Garmisch-Partenkirchen, Germany, September 18-20,
1990: Proceedings of the 11th Symposium on Industrial Crystallization, pp.285-290,
1990.
2-3) H. Ooshima, G. Sazaki, and Y. Harano, "Effect of lysozyme on
precipitation of thermolysin", Asia-Pacific Biochemical Engineering Conference
'90, Kyungju, Korea, April 22-25, 1990: Proceedings of Asia-Pacific Biochemical
Engineering Conference '90, pp.413-416, 1990.
2-4) H. Ooshima, G. Sazaki and J. Kato, "A novel method of purification
of protein by crystallization", Third Korea-Japan Symposium on Separation
Technology, Seoul, Korea, October 25-27, 1993: Proceedings of the Third Korea-Japan
Symposium on Separation Technology, pp.683-686, 1993.
2-5) K. Kurihara, S. Miyashita, G. Sazaki, T. Nakada, Y. Suzuki and H.
Komatsu, "Interferometric study on crystal growth of tetragonal lysozyme
crystal.", International Conference on Crystal Growth, The Hague, The Netherlands,
June 18-23, 1995.
2-6) G. Sazaki, E. Yoshida, T. Nakada, S. Miyashita, and H. Komatsu, "Novel approach to measure the solubility of protein by using Michelson
interferometry", The Sixth International Conference of Crystallization
of Biological Macromolecules, Hiroshima, Japan, November 12-17, 1995.
2-7) K. Sakuma, S. Miyashita, G. Sazaki, T. Nakada, and H. Komatsu, "Motion
of macro-steps induced on the surface of a lysozyme crystal", The Sixth
International Conference of Crystallization of Biological Macromolecules, Hiroshima,
Japan, November 12-17, 1995.
2-8) H. Ooshima, S. Aoki, G. Sazaki, and J. Kato, The Sixth International
Conference of Crystallization of Biological Macromolecules, Hiroshima, Japan,
November 12-17, 1995.
2-9) E. Kashimoto, G. Sazaki, T. Nakada, S. Miyashita, and H. Komatsu, "Study on the crystallization of concanavalin A", The Sixth International
Conference of Crystallization of Biological Macromolecules, Hiroshima, Japan,
November 12-17, 1995.
2-10) G. Sazaki, K. Kurihara, T. Nakada, S. Miyashita and H. Komatsu, "Solubility measurement of protein crystals by interferometry", Fourth
Japan-Korea Symposium on Separation Technology, Tokyo, Japan, October 6-8, 1996:
Proceedings of the Fourth Japan-Korea Symposium on Separation Technology, pp.973-976,
1996.
2-11) G. Sazaki, S. Yanagiya, H. Komatsu, and K. Watanabe, "Effects
of a magnetic field on the protein crystallization", Recent Advances in
Macromolecular Crystallization, Le Bischenberg, France, Septemper 7-9 1997.
2-12) G. Sazaki, H. Komatsu, and N. Chayen, "Solubility measurement
of thaumatin by two-beam interferometry", Recent Advances in Macromolecular
Crystallization, Le Bischenberg, France, Septemper 7-9 1997.
2-13) K. Kurihara, S. Miyashita, G. Sazaki, T. Nakada, H. Komatsu, T.
Ohba, and K. Ohki, "Incorporation of impurity to a tetragonal lysozyme
crystal", The Seventh International Conference of Crystallization of Biological
Macromolecules, Granada, Spain, May 3-8,1998.
2-14) T. Nakada, G. Sazaki, S. Miyashita, S.D. Durbin, and H. Komatsu, "Direct observations of impurity effects on a lysozyme crystal", The
Seventh International Conference of Crystallization of Biological Macromolecules,
Granada, Spain, May 3-8, 1998.
2-15) Y. Nagatoshi, G. Sazaki, Y. Suzuki, S. Miyashita, T. Nakada, S.D.
Durbin, and H. Komatsu, "Solubility measurement of lysozyme under high
pressure by two-beam interferometry", The Seventh International Conference
of Crystallization of Biological Macromolecules, Granada, Spain, May 3-8, 1998.
2-16) T. Oheda, K. Sato, G. Sazaki, H. Komatsu, and Y. Matsuura, "Solubility
and crystallization rates of monoclinic Taka-amyrase A crystals", The Seventh
International Conference of Crystallization of Biological Macromolecules, Granada,
Spain, May 3-8, 1998.
2-17) S. Yanagiya, G. Sazaki, S.D. Durbin, S. Miyashita, T. Nakada, H.
Komatsu, K. Watanabe, and M. Motokawa, "Effect of a magnetic field on the
orientatiion of hen egg-white lysozyme crystals", The Seventh International
Conference of Crystallization of Biological Macromolecules, Granada, Spain,
May 3-8, 1998.
2-18) G. Sazaki, S. Yanagiya, S.D. Durbin, S. Miyashita, T. Nakada, H.
Komatsu, K. Watanabe, and M. Motokawa, "Effect of a magnetic field on the
protein crystallization", The Seventh International Conference of Crystallization
of Biological Macromolecules, Granada, Spain, May 3-8, 1998.yInvited; µ‘Òu‰‰z
2-19) S. Miyashita, K. Kurihara, K. Hasegawa, G. Sazaki, T. Nakada, S.D.
Durbin, H. Komatsu, M. Fujishima, and M. Koyama, "Concentration field around
a growing crystal under microgravity", The Joint 1st Pan-Pacific Basin
Workshop and 4th Japan-China Workshop, Tokyo, July 8-11, 1998.
2-20) G. Sazaki, S. Yanagiya, S. Miyashita, T. Nakada, H. Komatsu, S.D.
Durbin, K. Watanabe, and M. Motokawa, "Effect of a magnetic field on the
protein crystallization I", The International Symposium on Industrial Crystallization
An Overview of the Present Status and Expectations for the 21st Century, Tokyo,
September 17-18, 1998: Proceedings in the International Symposium on Industrial
Crystallization An Overview of the Present Status and Expectations for the 21st
Century, pp.363-368, 1998.
2-21) S. Yanagiya, G. Sazaki, S. Miyashita, T. Nakada, H. Komatsu, S.D.
Durbin, K. Watanabe, and M. Motokawa, "Effect of a magnetic field on the
protein crystallization II", The International Symposium on Industrial
Crystallization An Overview of the Present Status and Expectations for the 21st
Century, Tokyo, September 17-18, 1998: Proceedings in the International Symposium
on Industrial Crystallization An Overview of the Present Status and Expectations
for the 21st Century, pp.369-374, 1998.
2-22) K. Hasegawa, S. Miyashita, T. Nakada, G. Sazaki, S.D. Durbin, C.
Sano, and H. Komatsu, "In-situ observation of concentration gradient layer
around an L-leucine complex crystal in flowing solution", International
Symposium on Industrial Crystallization: Recent Development for Industrial Applications,
Tianjin, September 1998.
2-23) M. Motokawa, I. Mogi, M. Tagami, G. Sazaki, H. Komatsu, S. Awaji,
and K. Watanabe, "Crystal growth in high magnetic field", The International
Symposium for Physical Phenomenon at High Magnetic Fields, Florida, October
24-27, 1998: Proceedings in the International Symposium for Physical Phenomenon
at High Magnetic Fields, pp.234, 1998.
2-24) T. Sato, G. Sazaki, Y. Katsuya, and Y. Matsuura, "Crystal
structure of hen egg-white lyozyme within high magnetic field environment",
XVIIIth International Union of Crystallography Congress and General Assembly,
Glasgow, UK, August 4-13, 1999.
2-25) G. Sazaki, S. Yanagiya, S. Miyashita, T. Ujihara, K. Nakajima,
H. Komatsu, K. Watanabe, and M. Motokawa, "Effects of a magnetic field
on the protein crystallization", Recent Advancement in Macromolecular Crystallization,
San Diego, California, USA, August 22-25, 1999.
2-26) G. Sazaki, Y. Nagatoshi, Y. Suzuki, S. Miyashita, T. Ujihara, K.
Nakajima, and H. Komatsu, "Effects of hydrostatic pressure on the growth
kinetics of tetragonal and orthorhombic lysozyme crystals", Recent Advancement
in Macromolecular Crystallization, San Diego, California, USA, August 22-25,
1999.
2-27) G. Sazaki, S. Yanagiya, S. Miyashita, T. Ujihara, K. Nakajima,
H. Komatsu, and M. Motokawa, "Effects of a magnetic field on the convection
in a NaCl aqueous solution", International Workshop on Chemical, Physical
and Biological Processes under High Magnetic Fields, Omiya, Saitama, Japan,
November 24-26, 1999: Proceedings in the International Workshop on Chemical,
Physical and Biological Processes under High Magnetic Fields, pp.361-370, 2000.
2-28) T. Nakaura, Y. Yamada, T. Sato, S. Saijo, T, Hori, R. Hirose, N. Tanaka, G. Sazaki, K. Nakajima, N. Igarashi, M. Tanaka, Y. Matsuura, "Assaying
the protein crystal structures in crystal grown under high magnetic field by
X-ray analysis", International Workshop on Chemical, Physical and Biological
Processes under High Magnetic Fields, Omiya, Saitama, Japan, November 24-26,
1999: Proceedings in the International Workshop on Chemical, Physical and Biological
Processes under High Magnetic Fields, pp.371-378, 2000.
2-29) G. Sazaki, S. Miyashita, T. Ujihara, N. Usami, K. Nakajima, "Novel
approach to control convection in an aqueous solution using a homogeneous magnetic
field", Fourth Japan-Canada Microgravity Workshop, Dunsmuir Lodge, Victoria,
Canada, May 11-12, 2000.
2-30) T. Sato, Y. Yamada, S. Saijo, T. Hori, R. Hirose, N. Tanaka, G. Sazaki,
N. Igarashi, M. Tanaka, Y. Matsuura, "Enhancement of crystal perfection
and the structure of orthorhombic lysozyme grown under high magnetic field",
Eighth International Conference on Crystallozation of Biological Macromolecules,
Sandestin, Florida, USA, May 14-19, 2000.
2-31) H. Hondoh, Y. Matsuura, G. Sazaki, S.D. Durbin, S. Miyashita, K.
Nakajima, "Intermolecular contacts, morphology and AFM observation of monoclinic
lysozyme crystal", Eighth International Conference on Crystallozation of
Biological Macromolecules, Sandestin, Florida, USA, May 14-19, 2000.
2-32) G. Sazaki, S. Yanagiya, S.D. Durbin, S. Miyashita, T. Ujihara,
K. Nakajima, and M. Motokawa, "Effects of a magnetic field on the growth
and dissolution rates of protein crystals: magnetic damping of natural convection",
Eighth International Conference on Crystallozation of Biological Macromolecules,
Sandestin, Florida, USA, May 14-19, 2000.
2-33) G. Sazaki, T. Sato, Y. Matsuura, N. Igarashi, M. Tanaka, S. Miyashita,
T. Ujihara, N. Usami, and K. Nakajima, "Magnetic damping of the convection
in an "aqueous" solution and enhancement in protein crystal perfection
under magnetic field", The 1st Asian Conference on Crystal Growth and Crystal
Technology, Sendai, Japan, August 29-September 1, 2000.
2-34) G. Sazaki, S. Yanagiya, T. Sato, Y. Matsuura, N. Igarashi, M. Tanaka,
S.D. Durbin, S. Miyashita, T. Ujihara, K. Fujiwara, N. Usami, H. Komatsu, K.
Nakajima, and M. Motokawa, "Effects of a magnetic field on crystal growth processes
of biological molecules", in The Thirteenth International Conference on Crystal
Growth in Conjunction with The Eleventh International Conference on Vapor Growth
and Epitaxy, Kyoto, Japan, July 30-August 4, 2001.yInvited; µ‘Òu‰‰z
2-35) G. Sazaki, S. Miyashita, M. Nokura, T. Ujihara, K. Fujiwara, N.
Usami, and K. Nakajima, "In-situ observation of the Marangoni convection in
a NaCl aqueous soution under microgravity", in The Thirteenth International
Conference on Crystal Growth in Conjunction with The Eleventh International
Conference on Vapor Growth and Epitaxy, Kyoto, Japan, July 30-August 4, 2001.
2-36) K. Ninomiya, T. Yamamoto, T. Oheda, K. Sato, G. Sazaki, and T.
Matsuura, "Morphology and solubility of multiple crystal forms of Taka-amylase
A", in The Thirteenth International Conference on Crystal Growth in Conjunction
with The Eleventh International Conference on Vapor Growth and Epitaxy, Kyoto,
Japan, July 30-August 4, 2001.
2-37) G. Sazaki, T. Matsui, T. Sato, Y. Matsuura, T. Senda, N. Igarashi,
M. Tanaka, T. Ujihara, K. Fujiwara, N. Usami, H. Komatsu, K. Nakajima and M.
Motokawa, "Mechanism of improvement in the quality of protein crystals
by applying homogeneous magnetic field during the crystal growth", in the
2'nd Japan-Netherlands Seminor on Crystal Growth: Theory and In-Situ Measurements,
Akiu, Sendai, Japan, January 14-17, 2002.
2-38) G. Sazaki, T. Matsui, T. Senda, T. Sato, Y. Matsuura, E. Kubota,
T. Kazuoka, T. Ohshima, T. Ujihara, K. Fujiwara, N. Usami, K. Nakajima, M. Motokawa, "Mechanism of improvement in the quality of protein crystals by a homogeneous
magnetic field", in the 9th International Conference on Crystallization
of Biological Macromolecules, Jena, Germany, March 23-28, 2002.
2-39) G. Sazaki, S. Miyashita, M. Nokura, T. Matsui, T. Ujihara, K. Fujiwara,
N. Usami, K. Nakajima, "In-situ Measurement of the Marangoni Convection
in a NaCl Aqueous Solution under Microgravity", in the 9th International
Conference on Crystallization of Biological Macromolecules, Jena, Germany, March
23-28, 2002.
2-40) T. Matsui, G. Sazaki, Takao Sato, Toru Ujihara, K. Fujiwara, N.
Usami, K. Nakajima, "Estimation of the quality of lysozyme crystal grown
under controlled driving force", in the 9th International Conference on
Crystallization of Biological Macromolecules, Jena, Germany, March 23-28, 2002.
2-41) Y. Suzuki, G. Sazaki, K. Visuri, K. Tamura, K. Nakajima, "Remarkable
decrease in the solubility of glucose isomerase crystals under high pressure",
in the 9th International Conference on Crystallization of Biological Macromolecules,
Jena, Germany, March 23-28, 2002.
2-42) T. Matsui, G. Sazaki, T. Sato, T. Ujihara, K. Fujiwara, N. Usami,
K. Nakajima, "Impurity effect on the quality of protein crystals evaluated
by the X-ray diffraction method: dependency on the supersaturation", Dunhuang,
Gansu Province, China, September 3-6, 2002.
2-43) Y. Suzuki, G. Sazaki, K. Visuri, K. Tamura, K. Nakajima, S. Yanagiya, "Growth acceleration of glucose isomerase crystal at high pressure",
2nd International Conference on High Pressure Bioscience & Biotechnology,
Dortmund, Germany, September 16-19, 2002.
2-44) G. Sazaki, T. Matsui, T. Ujihara, K. Fujiwara, N. Usami, K. Nakajima, "How to grow a protein crystal of better quality: proposals from crystal
growth physics", Crystallogenesis and Protein Crystallography, Mexico City,
Mexico, June 23-26, 2003. yInvited; µ‘Òu‰‰z
2-45) A. Moreno, K. Nakajima, G. Sazaki, "Novel coupling effects
of the magnetic and electric fields on crystallization and 3D structure of proteins",
Second International Applied Statistical Physics: Molecular Engineering Conference,
Purto Vallarta, Mexico, August 25-29, 2003.
2-46) K. Tsukamoto, S. Yai, G. Sazaki, "In-situ observation of mono-molecular growth steps and defects of protein crystals by advanced optical microscopy", 2nd International Symposium on Physical Sciences in Space held jointly with Spacebound 2004, Toronto, Canada, May 23-27, 2004.
2-47) G. Sazaki, M. Okada, T. Matsui, H. Higuchi, K. Tsukamoto, K. Nakajima, "In situ observation of elementary growth steps on protein crystals and individual protein molecules diffusing in the vicinity of crystal surfaces", 10th International Conference on Crystallization of Biological Macromolecules, Beijing, China, June 5-8, 2004.
2-48) T. Matsui, G. Sazaki, M. Okada, Y. Matsuura, K. Fujiwara, T. Ujihara, N. Usami, K. Nakajima, "Impurity effects of fluorescent labeled lysozyme on the crystallization of tetragonal and monoclinic crystals", 10th International Conference on Crystallization of Biological Macromolecules, Beijing, China, June 5-8, 2004.
2-49) M. Okada, G. Sazaki, T. Matsui, H. Higuchi, K. Nakajima, "In situ observation of diffusing process of individual protein molecules in the vicinity of crystal surfaces", 10th International Conference on Crystallization of Biological Macromolecules, Beijing, China, June 5-8, 2004.
2-50) K. Tsukamoto, S. Yai, G. Sazaki, "Effect of micro-defects in protein crystals on the growth mechanism of the crystals observed by high-resolution phase-sensitive microscopy", 10th International Conference on Crystallization of Biological Macromolecules, Beijing, China, June 5-8, 2004.
2-51) G. Sazaki, M. Okada, T. Matsui, H. Higuchi, K. Tsukamoto, K. Nakajima, "Development of novel in situ techniques for the observations of elementary growth steps on protein crystals and individual protein molecules diffusing in the vicinity of crystal surfaces", 14th International Conference on Crystal Growth and 12th International Conference on vapor growth and epitaxy, Grenoble, France, August 9-13, 2004.
2-52) E. Nieto-Mendoza, B.A. Frontana-Uribe, G. Sazaki and A. Moreno1, "Investigations on electromigration phenomena for protein crystallization using a crystal growth cell with multiple parallel electrodes", 14th International Conference on Crystal Growth and 12th International Conference on vapor growth and epitaxy, Grenoble, France, August 9-13, 2004.
2-53) K. Tsukamoto, S. Yai, G. Sazaki, "In-situ observation of monomolecular growth steps and defect generation of protein crystals by advanced phase-sensitive optical microscopy; effect of microdefects on 2D growth islands", 14th International Conference on Crystal Growth and 12th International Conference on vapor growth and epitaxy, Grenoble, France, August 9-13, 2004.
2-54) Y. Suzuki, G. Sazaki, Y. Matsuura, H. Hondoh, H. Sakuraba, T. Ohshima, K. Nakajima, K. Tamura, "A molecular level study on the growth kinetics of glucose isomerase crystals", 3rd International Conference on High Pressure Bioscience and Biotechnology, Rio de Janeiro, Brazil, September 27-30, 2004.
2-55) G. Sazaki, M. Okada, T. Matsui, H. Higuchi, T. Watanabe, K. Tsukamoto, K. Nakajima, "In-situ observation of elementary growth steps on a protein crystal, surface diffusion of protein molecules and dislocations inside a protein crystal", 20th Congress of the International Union of Crystallography, Florence, Italy, August 23-31, 2005. yInvited; µ‘Òu‰‰z
2-56) G. Sazaki, G. Dai, M. Okada, T. Watanabe, H. Higuchi, K. Tsukamoto, K. Nakajima, "In-situ observation of elementary growth processes of protein crystals by advanced optical microscopy", Interface Mineralogy, Sendai, Japan, September 28-30, 2005. yInvited; µ‘Òu‰‰z
2-57) A. Van Driessche, G. Sazaki, F. Otalora, K. Tsukamoto, K. Nakajima, "In situ observations of impurity effects on the step velocity of 2D islands on {110} surfaces of tetragonal lysozyme crystals by laser confocal microscopy", Interface Mineralogy, Sendai, Japan, September 28-30, 2005.
2-58) G. Sazaki, M. Okada, G. Dai, T. Matsui, K. Tsukamoto, T. Watanabe, H. Higuchi, K. Nakajima, "Molecular level in situ observation of elementary growth processes of protein crystals by advanced optical microscopy", 3rd Asian Conference on Crystal Growth and Crystal Technology, Beijing, China, October, 16-19, 2005. yInvited; µ‘Òu‰‰z
2-59) G. Sazaki, M. Okada, G. Dai, T. Watanabe, H. Hideo, K. Tsukamoto, K. Nakajima, "Dynamics of adsorption, desorption and diffusion processes of individual protein molecules at a protein crystal-solution interface", Kakenhi International Symposium on Molecular Nano Dynamics, Osaka, Japan, June 1-3, 2006.
2-60) G. Sazaki, A. Van Driessche, D. Guoliang, I. Yoshizaki, F. Otalora, K. Tsukamoto, K. Nakajima, " Molecular level in situ observations of the impurity effects on the growth of protein crystals by advanced optical microscopy ", The 25th International Symposium on Space Technology and Science, Kanazawa, Japan, June 4-11, 2006.
2-61) G. Sazaki, M. Okada, G. Dai, A. Van Driessche, F. Otalora, T. Matsui, K. Tsukamoto, K. Nakajima, "Molecular level in-situ observations of elementary growth processes of protein crystals by advanced optical microscopy", 19th General Meeting of the International Mineralogical Association, Kobe, Japan, July 23-28, 2006. yPlenary; Šî’²u‰‰z
2-62) G. Sazaki, M. Okada, G. Dai, A. Van Driessche, F. Otalora, T. Matsui, T. Watanabe, H. Higuchi, K. Tsukamoto, K. Nakajima, "Direct observations of elementary growth processes of protein crystals: elucidation of defects formation mechanisms", 11th International Conference on Crystallization of Biological Macromolecules, Quebec, Canada, August 16-21, 2006. yInvited; µ‘Òu‰‰z
2-63) A. Van Driessche, G. Sazaki, G. Dai, K. Nakajima, I. Yoshizaki, F. Otalora, "In situ observation of the impurity effects on the growth of protein crystals by advanced optical microscopy", 11th International Conference on Crystallization of Biological Macromolecules, Quebec, Canada, August 16-21, 2006.
2-64) A. Van Driessche, G. Sazaki, K. Nakajima, K. Tsukamoto, F. Otalora, "In situ observations of 2D nucleation behavior on the surface of protein crystals by advanced optical microscopy" 11th International Conference on Crystallization of Biological Macromolecules, Quebec, Canada, August 16-21, 2006.
2-65) K. Tsukamoto, P. Dold, E. Ono, M. Koizumu, G. Sazaki, "In-situ characterization of defects during protein crystal growth by "single layer etching"", 11th International Conference on Crystallization of Biological Macromolecules, Quebec, Canada, August 16-21, 2006.
2-66) Y. Suzuki, G. Sazaki, M. Matsumoto, M. Nagasawa, K. Nakajima, K. Tamura, "High-Pressure Acceleration of the Growth Rates of Steps and Two-Dimensional Nucleation Rates on {1 0 1} Faces of Glucose Isomerase Crystals", in International Conference on High Pressure Bioscience and Biotechnology (HPBB2006), Tsukuba, Japan, September 25-29 (2006).
2-67) M. Maruyama, Y. Nishimura, G. Sazaki, K. Tsukamoto, "The dynamics of calcite step movement in the presence of chiral amino acids", Gordon Research Conference, USA, June (2007).
2-68) G. SazakiG. Dai, A.S.E. Van Driessche, I. Yoshizaki, T. Matsui, F. OtaLlora, K. Tsukamoto, K. Nakajima, "Application of single molecule visualization to protein crystallization", 15th International Conference on Crystal Growth, Salt Lake City, USA, August 12-17, 2007. yInvited; µ‘Òu‰‰z
2-69) K. Tsukamoto, P. Dold, G. Sazaki, "Application of high-resolution interferometry to the growth of lysozyme crystals at wide ranges of supersaturation" , in The 15 th International Conference on Crystal Growth, Salt Lake City, Utah, August 12-17 (2007). yInvited; µ‘Òu‰‰z
2-70) A.E.S. Van Driessche, J.A. Gavira, G.G. Sazaki OtaLlora, "In situ observation of the joint gel/impurity effect on protein crystal growth kinetics", 15th International Conference on Crystal Growth, Salt Lake City, USA, August 12-17, 2007.
2-71) A.E.S.Van Driessche, G. Sazaki, G. Dai, K. Tsukamoto, I. Yoshizaki, F. Otalora, " Impurity effects and adsorption sites of impure proteins on protein crystal ", in The 15 th International Conference on Crystal Growth, Salt Lake City, Utah, August 12-17 (2007).
2-72) A.E.S. Van Driessche, G. Sazaki.M. GonzaLlez-Rico, P. Dold, K. Tsukamoto, K. Nakajima, F. OtaLlora, " In situ measurements of two-dimensional nucleation rates of protein crystals by advanced optical microscopy ", in The 15 th International Conference on Crystal Growth, Salt Lake City, Utah, August 12-17 (2007).
2-73) M. Maruyama, Y. Nishimura, G. Sazaki, K. Tsukamoto, "Effect of chiral molecules on the movement of calcite growth and dissolution steps", in The 15 th International Conference on Crystal Growth, Salt Lake City, Utah, August 12-17 (2007).
2-74) G. Sazaki, G. Dai, H. Kawahara, A.E.S. Van Driessche, F. Otalora, K. Tsukamoto, K. Nakajima, Y. Mori, "Elementary growth processes of protein crystals revealed by single-molecule visualization", The 4th Asian Conference on Crystal Growth and Crystal Technology, Sendai, Japan, May 21-24 (2008). yKeynote; Šî’²u‰‰z
2-75) L. Ito, G. Sazaki, K. Shiraki, T. Kobayashi, M. Okumura, H. Yamaguchi, "Solution designs for protein crystallization using amino acids and amino acid derivatives", The 4th Asian Conference on Crystal Growth and Crystal Technology, Sendai, Japan, May 21-24 (2008).
2-76) G. Sazaki, G. Dai, A.S.E. Van Driessche, I. Yoshizaki, T. Matsui, F. Otalora, K. Tsukamoto, K. Nakajima, "Single-molecule visualization on a protein crystal surface", The 21th Congress and General Assembly of International Union of Crystallography, Osaka, Japan, Augst 24-29, 2008. yInvited; µ‘Òu‰‰z
2-77) H. Kawahara, G. Sazaki, R. Murai, N. Shimizu, K. Tomoya, S. Sigeru, M. Yamagami, H. Adachi, K. Takano, H. Matsumura, S. Murakami, T. Inoue, T. Sasaki, Y. Mori, "The first direct observation of individual protein molecules on a protein crystal under forced solution-low", The 21th Congress and General Assembly of International Union of Crystallography, Osaka, Japan, Augst 24-29, 2008.
2-78) M. Maruyama, K. Tsukamoto, G. Sazaki, P.G. Vekilov, "Chiral and achiral mechanisms of regulation of calcite crystallization", The 21th Congress and General Assembly of International Union of Crystallography, Osaka, Japan, Augst 24-29, 2008.
2-79) Y. Suzuki, G. Sazaki, M. Matsumoto, M. Nagasawa, K. Tamura, "Effects of pressure on the step velocity, two-dimensional nucleation rate and solubility of glucose isomerase crystals", The 5th International Conference on High Pressure Bioscience and Biotechnology, Scripps, San Diego, USA, September 15-19 (2008).
2-80) G. Sazaki, "Elementary growth processes of protein crystals revealed by advanced optical microscopy", March Annual Workshop 2009 of the World Premier International Research Center-Advanced Institute for Materials Research, Tohoku University, Sendai, Japan, March 1-6, 2009.
yInvited; µ‘Òu‰‰z
2-81) G. Dai, G. Sazaki, Y. Furukawa, "Studying the attachment/detachment process of lysozyme molecules on a monoclinic lysozyme crystal surface by single-molecule visualization", The 16th International Conference on Crystal Growth, Beijing, China, August 8-13, 2010.
2-82) G. Dai, G. Sazaki, Y. Furukawa, E. Yokoyama, "Direct measurement of the dependency of step velocities on distances between adjacent spiral steps: bulk diffusion or surface diffusion", The 16th International Conference on Crystal Growth, Beijing, China, August 8-13, 2010.
2-83) T. Fujiwara, Y. Suzuki, G. Sazaki, S. Yanagiya, K. Tamura, "Effects of pressure on the step velocity of tetragonal lysozyme crystals", The 16th International Conference on Crystal Growth, Beijing, China, August 8-13, 2010.
2-84) T. Fujiwara, Y. Suzuki, G. Sazaki, S. Yanagiya, K. Tamura, "Effects of pressure on the solubility and thermodynamic parameters of tetragonal lysozyme crystals", The 6th International Conference on High Pressure Bioscience and Biotechnology, Munich, Germany, August 28-September 1, 2010.
2-85) S. Sugiyama, M. Hirose, R. Murai, Y. Takahashi, M. Maruyama, G. Sazaki, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, H. Matsumura, "Protein crystallization in agarose gel with high strength", Dublin, Ireland, September 12-16, 2010.
2-86) R. Tero, G. Sazaki, T. Ujihara, T. Urisu, "Hierarchic lipid diffusion in supported lipid bilayers on oxide surfaces", 2010 International Chemical Congress of Pacific Basin Societies (PACIFICHEM 2010), Hawaii, USA, December 15-20, 2010.
2-87) G. Dai, G. Sazaki, Y. Furukawa, gStudying the attachment/detachment process of lysozyme molecules during lysozyme crystallizationh, Symposium FF: CGCT-5 Organic and bio-related crystallization, International Conference on Materials for Advanced Technologies, Suntec, Singapore, Jun 26-Jul 1, 2011.
2-88) K. Tsukamoto, I. Yoshizaki, Y. Suzuki, H. Miura, G. Sazaki, M. Tachibana, K. Murayama, K. Oshi, J.M. Garcia-Ruiz, gGrowth mechanism of lysozyme crystals in the international space station based on the analysis of in-situ interferometric observationh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013. yKeynote Lecture; Šî’²u‰‰z
2-89) G. Dai, G. Sazaki, gThe attachment/detachment process of lysozyme molecules on a monoclinic lysozyme crystal surface studied by single-molecule visualizationh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
2-90) A.E.S. Van Driessche, G. Sazaki, D. Maes, M. Sleutel, gGrowth mechanisms that trigger self-purification during protein growthh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
2-91) A.E.S. Van Driessche, J.M. Delgado-Lopez, G. Sazaki, H. Satoh, K. Tsukamoto, J.M. Garcia-Ruiz, gGypsum crystal growth: from fast growth in the laboratory to ultraslow growth in natureh, The 17th International Conference on Crystal Growth and Epitaxy, Warsaw, Poland, August 11-16, 2013.
2-92) S. Sugiyama, N. Shimizu, G. Sazaki, M. Hirose, Y. Takahashi, M. Maruyama, H. Matsumura, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, gA new approach for protein crystallization by mebiol hydrogel with thermoreversible gelation polymerh, The 7th International Conference on Structural Genomics (ICSG2013), Sapporo, Japan, July 29-August 1, 2013.
2-93) S. Sugiyama, H. Matsumura, G. Sazaki, M. Maruyama, Y. Takahashi, H. Yoshikawa, M. Yoshimura, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, gGrowth of protein crystals in hydrogels with high strengthh, 15th International Conference on the Crystallization of Biological Macromolecules, Hamburg, Germany, September 17-20, 2014. yµ‘Òu‰‰z
2-94) M. Maruyama, G. Sazaki, H. Adachi, M. Yoshimura, Y. Mori, gEffects of a forced flow on the step advancement on {110} faces of tetragonal lysozyme crystalsh, International Symposium on Physical Sciences in Space, Kyoto Japan, September 14-18, 2015.
2-95) M. Maruyama, G. Sazaki, H. Adachi, M. Yoshimura, Y. Mori, gEffects of a forced solution flow on the step advancement on {110} faces of tetragonal lysozyme crystalsh, The Joint Conference of 6th International Symposium on Physical Sciences in Space and 10th International Conference on Two-Phyase Systems for Space and Ground Applications, Kyoto, Japan, September 14-18, 2015. iu‰‰‚Í9ŒŽ18“új
2-96) S. Mizue, S. Ibaraki, Y. Oaki, G. Sazaki, H. Imai, gParallel banded structures formed by synchronized growth of helical crystals in a polymer matrixh, The 18th International Conference on Crystal Growth and Epitaxy, Nagoya, Japan, August 7-12, 2016.
2-97) Y. Suzuki, K. Tsukamoto, G. Sazaki, A. Ninomiya, S. Fukuyama, T. Shimaoka, M. Nagai, T. Sone, S. Wachi, Y. Arai, I. Yoshizaki, M. Kanno, Y. Tsuboi, S. Yanagiya, S. Matsuo, gElucidation of crystal growth mechanisms by in-situ observationh, The Ceramic Socoety of Japan, The 35th Fall Meeting, September 14-16, 2022, Tokushima University, Josanjima campus.iu‰‰‚Í9ŒŽ15“új
‚RDCrystal growth of organic semicondcutor thin films; —L‹@”¼“±‘Ì”––Œ‚ɂ‚¢‚Ä
3-1) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K.
Nakajima, "Epitaxial structure and growth behavior of organic semiconductor
thin film crystals on hydrogen terminated Si(111) substrate", First Kyoto
Workshop on Computational Materials Science, Kyoto, Japan, March 2-4, 2003.
3-2) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Control of the Grain Orientations of Organic Semiconductor PTCDA Thin
Film Crystals Epitaxially Grown on Hydrogen-Terminated Si(111) Substrate",
The Fourth Romanian Conference on Advanced Materials, Constanta, Romania, September
15-18, 2003. yInvited; µ‘Òu‰‰z
3-3) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Control of the grain orientations of organic semiconductor PTCDA thin
film crystals epitaxially grown on H-Si(111) substrate using vicinal steps",
14th International Conference on Crystal Growth and 12th International Conference
on vapor growth and epitaxy, Grenoble, France, August 9-13, 2004.
3-4) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Effects of vicinal steps on the island growth and orientation of organic
semiconductor PTCDA thin film crystals epitaxially grown on a hydrogen-terminated
Si(111) substrate", Seminar Series in Crystal Growth: Commemoration of
the 50th Birthday of Ege University, Izmir, Turky, June 30, 2005. yInvited;
µ‘Òu‰‰z
3-5) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Effects of vicinal steps on the island growth and orientation of organic
semiconductor PTCDA thin film crystals epitaxially grown on a hydrogen-terminated
Si(111) substrate", 2nd International Exergy, Energy and Environment Sympojium,
Kos, Greece, July 3-7, 2005.
3-6) S. Suto, H. Kato, T. Yamada, H. Nagashima, R. Czajka, A. Wawro, T. Taoka,
T. Motoya, S. Nishikata, G. Sazaki, K. Nakajima, A. Kasuya, "HREELS,
AFM, STM and STS study of hydrogen and deuterium terminated Si(111)-(1x1) Surfaces",
4th International Symposium on Surface Science and Nanotechnology, Omiya, Japan,
November 14-17, 2005.
3-7) G. Sazaki, S. Nishikata, J.T. Sadowski, A. Al-Mahboob, T. Nishihara, S. Suto, T. Sakurai, K. Nakajima, "Evolution mechanism of a domain structure of polycrystalline pentacene thin films epitaxially grown on H-Si(111)", International Conference on Nanoscience and Technology (NANO09 and STM'06), Basel, Switzerland, July 30-August 4, 2006.
3-8) S. Nishikata, G. Sazaki, T. Takeuchi, N. Usami, S. Suto, K. Nakajima, "Control of growth directions of pentacene thin film crystals using vicinal steps", International Conference on Nanoscience and Technology (NANO09 and STM'06), Basel, Switzerland, July 30-August 4, 2006.
3-9) J.T. Sadowski, G. Sazaki, S. Nishikata, A. Al-Mahboob, Y. Fujikawa and T. Sakurai, "Real-time low-energy electron microscopy observation of the self-polycrystallization mechanism in the growth of pentacene on H-Si(111)", International Conference on Nanoscience and Technology (NANO09 and STM'06), Basel, Switzerland, July 30-August 4, 2006.
3-10) K. Hayashi, K. Sakai, S. Nishikata, G. Sazaki, "X-ray waveguide phenomenon of pentacene thin film", "Buried" Interface Science with X-rays and Neutrons, Yokohama, Japan, July 3-4, 2006: KEK Proceedings 2006-3, 137-140.
3-11) G. Sazaki, S. Nishikata, J.T. Sadowski, A. Al-Mahboob, Y. Fujikawa, S.
Suto, T. Sakurai, K. Nakajima, "Evolution mechanisms of polycrystalline
domain structures of pentacene thin films epitaxially grown on a H-Si(111) surface",
The 5th International Conference on LEEM/PEEM, Himeji, Japan, Octover 15-19,
2006.
3-12) S. Nishikata, G. Sazaki, J.T. Sadowski, A. Al-Mahboob, Y. Fujikawa, S.
Suto, T. Sakurai, K. Nakajima, "Polycrystalline domain structures and epitaxial
structures of Pn thin film crystals on a H-Si(111) surface", The 5th International
Conference on LEEM/PEEM, Himeji, Japan, Octover 15-19, 2006.
3-13) S. Nishikata, G. Sazaki, T. Takeuchi, N. Usami, S. Suto, K. Nakajima, "Step-induced anisotropic growth of pentacene thin film crystals on a hydrogen-terminated Si(111) surface", 15th International Conference on Crystal Growth, Salt Lake City, USA, August 12-17, 2007.
‚S DCrystal growth of semiconductor, oxide, metal etc.; ”¼“±‘ÌCŽ_‰»•¨C‹à‘®‚Ȃǂɂ‚¢‚Ä
4-1) K. Nakajima, T. Ujihara, S. Miyashita and G. Sazaki, "Phase
diagrams and stable structures for Stranski-Krastanov mode of III-V ternary
quantum dots", '99 International Conference of The Korean Association of
Crystal Grwoth (KACG) and 6th Korea-Japan Electronic Materials Growth Symposium
(K-J EMGS), Seoul, Korea, June 6-9, 1999.
4-2) K. Nakajima, S. Miyashita and G. Sazaki, "Thickness-composition
diagrams of Stranski-Krastanov mode for III-V ternary systems", Eleventh
American Conference on Crystal Growth & Epitaxy, Tucson, Arizona, USA, August
1-6, 1999.
4-3) K. Nakajima Kazuo, T. Ujihara, S. Miyashita, G. Sazaki, "Phase
diagrams of the Stranski-Krastanov mode for III-V ternary quantum dots",
1999 Xianshan Science Conferences on Photonics and Nonlinear Optical Crystals,
Beijing, China, November 1-4, 1999.
4-4) K. Nakajima, T. Ujihara, S. Miyashita, and G. Sazaki, "Effects
of the dislocation density and surface energy on phase diagrams of the S-K growth
mode for the GaInN/GaN and GaPSb/GaP systems", Materials Research Society
2000 Spring Meeting, San Francisco, California, USA, April 24-28, 2000.
4-5) K. Nakajima, T. Ujihara, S. Miyashita, and G. Sazaki, "Effects
of misfit dislocation and AlN buffer layer on the phase diagram of the growth
modes for the GaInN/GaN system", 2000 42'nd Electronic Materials Conference,
Denver, Colorado, USA, June 21-23, 2000.
4-6) K. Nakajima, T. Ujihara, S. Miyashita, and G. Sazaki, "Phase
diagram calculation for epitaxial growth of GaInAs on InP considering the surface,
interface and strain energies", Twelfth American Conference on Crystal
Growth and Epitaxy, Vail, Colorado, USA, August 13-18, 2000.
4-7) G. Sazaki, T. Ujihara, Y. Azuma, S. Miyashita, N. Usami, and K.
Nakajima, "Development of in-situ monitoring system of the position and
temperature at the crystal-solution interface", The 1st Asian Conference
on Crystal Growth and Crystal Technology, Sendai, Japan, August 29-September
1, 2000.
4-8) T. Ujihara, S. Miyashita, G. Sazaki, N. Usami, and K. Nakajima, "In-situ measurement of concentration distribution of zinc in a gallium
solution using the X-ray fluorescence spectrometry", The 1st Asian Conference
on Crystal Growth and Crystal Technology, Sendai, Japan, August 29-September
1, 2000.
4-9) Y. Azuma, N. Usami, T. Ujihara, G. Sazaki, Y. Murakami, K. Fujiwara,
S. Miyashita, and K. Nakajima, "Successful fabrication of SiGe bulk crystal
with uniform composition as a substrate for Si-based heterostructures",
The 1'st International Workshop on New Group IV (Si-Ge-C) Semiconductors: Control
of Properties and Applications to Ultrahigh Speed and Optoelectronic Devices,
Sendai, Japan, January 21-23, 2001.
4-10) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Fujiwara, and K.
Nakajima, "Growth of SiGe bulk crystal with uniform composition",
UK-Japan Co-operative seminar on Electronic Materials and Devices, St. Albains,
UK, March 7-9 (2001).
4-11) T. Ujihara, G. Sazaki, K. Fujiwara, N. Usami, and K. Nakajima, "In-situ measurement of concentration distributions in a high temperature
solution", The University of Tokyo and National Cheng Kung University Joint
Workshop on Advanced Semiconductor Materials and Devices, Tainan, Taiwan, March
15 (2001).
4-12) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Fujiwara, and K.
Nakajima, "Growth of SiGe bulk crystal with uniform composition by the
muticomponent zone-melting method", The University of Tokyo and National
Cheng Kung University Joint Workshop on Advanced Semiconductor Materials and
Devices, Tainan, Taiwan, March 15 (2001).
4-13) K. Nakajima, N. Usami, K. Fujiwara, Y. Murakami, T. Ujihara, G. Sazaki,
and T. Shishido, "Melt growth of multicrystalline SiGe with large compositional
distribution for new solar cell applications", European Materials Research
Society 2001 Spring Meeting, Strasbourg, France, June 5-8 (2001): In J. Solar
Energy Materials and Solar Cells, in press.
4-14) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Fujiwara, Y. Murakami,
and K. Nakajima, "Fablication of SiGe bulk crystals with uniform composition
as substrates for Si-based heterostructures", E-MRS Spring Meeting, Strasbourg,
France, June 4-8, 2001.
4-15) G. Sazaki, Y. Azuma, N. Usami, T. Ujihara, K. Fujiwara, S. Miyashita,
and K. Nakajima, "In-situ monitoring system of the position and temperature
at the crystal-solution interface", in The Thirteenth International Conference
on Crystal Growth in Conjunction with The Eleventh International Conference
on Vapor Growth and Epitaxy, Kyoto, Japan, July 30-August 4 (2001).
4-16) Y. Azuma, N. Usami, T. Ujihara, G. Sazaki, K. Fujiwara, Y. Murakami,
and K. Nakajima, "Realization of SiGe bulk crystal with compositional uniformity
over 20mm by controlling the growth temperature utilizing in situ monitoring
system", in the Thirteenth International conference on Crystal Growth in Conjunction
with the Eleventh International Conference on Vapor Growth and Epitaxy, July
30-August 4 (2001).
4-17) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Fujiwara, and K.
Nakajima, "Optical and structural characterizations of SiGe bulk crystal grown
by the multicomponent zone-melting method as a substrate for strain-controlled
Si-based functional films", in the Thirteenth International Conference on Crystal
Growth in Conjunction with the Eleventh International Conference on Vapor Growth
and Epitaxy, July 30-August 4 (2001).
4-18) T. Ujihara, G. Sazaki, K. Fujiwara, N. Usami, and K. Nakajima,
"New method for determination of mutual diffusion coefficient in metal and semiconductor
solutions using in-situ composition measurement technique", in The Thirteenth
International Conference on Crystal Growth in Conjunction with The Eleventh
International Conference on Vapor Growth and Epitaxy, Kyoto, Japan, July 30-August
4 (2001).
4-19) K. Nakajima, Y. Azuma, N. Usami, T. Ujihara, G. Sazaki, K. Fujiwara,
Y. Murakami, and T. Shishido, "Growth of SiGe bulk crystal with compositional
uniformity over 20mm by controlling the growth temperature utilizing in situ
monitoring system", in Thirteenth American Conference on Crystal Growth
and Epitaxy, Burlington, Vermont, USA, August 12-16 (2001).
4-20) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Fujiwara, Y. Murakami,
T. Shishido, and K. Nakajima, "Growth of SiGe bulk crystal with uniform
composition for application to band-engineering in Si-based heterostructures",
SSDM 2001, Tokyo, Japan, Sept. (2001).
4-21) T. Ujihara, K. Fujiwara, G. Sazaki, N. Usami and K. Nakajima, "New
determination method for mutual diffusion coefficient of metal and semiconductor
solutions based on FickÕs first law", in Eleventh International Conference
on Liquid and Amorphous Metals (LAM11), Yokohama, Japan, September 9-14 (2001).
4-22) N. Usami, Y. Azuma, T. Takahashi, K. Fujiwara, T. Ujihara, G. Sazaki,
Y. Murakami, K. Nakajima, "Control of the compositional distribution of
SiGe bulk crystal for optoelectronic applications", Colected abstract in
the 17th Korean Association of Crystal Growth Fall meeting, Hanseo University,
Seosan, Korea, November 8-10 (2001).yInvited; µ‘Òu‰‰z
4-23) K. Nakajima, Y. Azuma, N. Usami, T. Ujihara, G. Sazaki, T. Takahashi,
K. Fujiwara, and T. Shishido, "Melt growth of SiGe bulk crystals with uniform
composition and SiGe multicrystals with microscopic compositional distribution
for heterostructure device applications", in International Forum on Science
and Technology of Crystal Growth, Sendai, Japan, March 4-4 (2002). yInvited; µ‘Òu‰‰z
4-24) N Usami, T. Takahashi, K. Fujiwara, T. Ujihara, G. Sazaki, Y. Murakami,
and K. Nakajima, "Si/multicrystalline-SiGe heterostructure as a candidate
for solar cells with high conversion fficiency", in 29th IEEE Photovoltaic
Specialists Conference, New Orleans, Louisiana, USA, May 20-24 (2002).
4-25) T. Ujihara, E. Kanda, K. Fujiwara, G. Sazaki, N. Usami, Y. Murakami,
K. Kitahara, and K. ajima, "Grain growth of polycrystalline Si thin film
for solar cells and its crystal properties", in 29th IEEE Photovoltaic
Specialists Conference, New Orleans, Louisiana, USA, May 20-24 (2002), Proc.
Int. Conf. on 29th IEEE Photovoltaic Specialists Conference, 1339-1342 (2002).
4-26) N. Usami, Y. Azuma, K. Fujiwara, T. Ujihara, G. Sazaki, Y. Murakami,
and K. Nakajima, "Growth of SiGe bulk crystal with uniform composition
by utilizing in situ monitoring of the crytal-solution interface", in the
First International Symposium on Crystal Science and Technology, Yamanashi Univ.,Kofu,
Japan, June 5 (2002). yInvited; µ‘Òu‰‰z
4-27) N. Usami, K. Kutsukake, Y. Azuma, K. Fujiwara, T. Ujihara, G. Sazaki,
Y. Murakami, K. Nakagawa, and K. Nakajima, "Fabrication of SiGe substrate
with uniform composition and its application to strain-controlled epitaxy for
group-IV heterostructures", in the second international workshop on new
group-IV semiconductors, Kofu, Japan, June 2-4 (2002)
4-28) N. Usami, T. Takahashi, K. Fujiwara, T. Ujihara, G. Sazaki, and
K. Nakajima, "Built-in strain modulation in multicrystalline SiGe with
microscopic compositional distribution", 26 th International Conference
on Physics of Semiconductors, Edinburgh, UK, July 29-August 2 (2002).
4-29) K. Nakajima, N. Usami, K. Fujiwara, T. Takahashi, T. Ujihara, G. Sazaki,
and T. Shishido, "Growth and optical properties of SiGe multicrystals with
microscopic compositional distribution for new Si/SiGe heterostructural solar
cells", in PV in Europe from PV Technology to Energy Solutions Conference
and Exhibition, Palazzo dei Congressi, Rome, Italy, October 7-11 (2002).
4-30) T. Ujihara, E. Kanda, K. Fujiwara, N. Usami, G. Sazaki, K. Nakajima, " Effect of growth temperature on surface morphology and crystal quality of Si thin-film by liquid phase epitaxial growth technique " , Proc. PV in Europe from PV Technology to Energy Solutions Conference and Exhibition, Palazzo dei Congressi, Roma, Italy, 7-11 October (2002): In Proceedings of PV in Europe, pp. 408-411 (2003).
4-31) K. Nakajima, K. Fujiwara, Y. Azuma, N. Usami, T. Ujihara, G. Sazaki, "Melt Growth of SiGe Bulk Crystals with Uniform Composition and SiGe Multicrystals with Microscopic Compositional Distribution for New Si/SiGe Heterostructural Solar Cells", The Fourth Romanian Conference on Advanced Materials , Constanta, Romania, September 15-18, 2003. yŠî’²u‰‰z
4-32) K. Fujiwara, Y. Obinata, T. Ujihara, N. Usami, G. Sazaki and K. Nakajima, "In-situ observations of grain growth behaviors of polycrystalline Si during melt growth process", in 2004 MRS Spring Meeting, San Francisco, April 12-16 (2004): In Mat. Res. Soc. Symp. Proc., Vol. 000, pp. 000-000 (0000).
4-33) T. Ujihara, S. Munetoh, K. Kusunoki, K. Kamei, N. Usami, K. Fujiwara, G. Sazaki, and K. Nakajima, "Crystal quality evaluation of 6H-SiC layers grown by liquid phase epitaxy around micropipes using micro-Raman scattering spectroscopy", Mater. Sci Forum (2003) in press
Domestic Conferences; ‘“àŠw‰ï”•\
‚PDáE•X‚¨‚æ‚ÑŠÖ˜AÞ—¿‚ɂ‚¢‚Ä
1-1) ²í•@Œ³C Salvador Zepeda,
’†’ØrˆêC
ŒÃì‹`ƒCu•XŒ‹»•\–Ê‚Ì‚•ª‰ðŒõŠw‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï‘æ 64 ‰ñ”NŽŸ‘å‰ï , 2009 ”N 3 ŒŽC—§‹³‘åŠwD
1-2) G. Sazaki, S. Zepeda, S. Nakatsubo, Y. Furukawa, "In situ observation of ice crystal surfaces by advanced optical microscopy", Japan Geoscience Union Meeting 2009, Makuhari Messe International Conference Hall, Chiba, May 16-21, 2009; ²í•@Œ³C Salvador Zepeda C’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒn‚É‚æ‚é•XŒ‹»•\–Ê‚Ì‚»‚ÌêŠÏŽ@vC“ú–{’n‹…˜f¯‰ÈŠw˜A‡ 2009 ”N‘å‰ïC 2009 ”N 5 ŒŽC–‹’£ƒƒbƒZ‘Û‰ï‹cêCç—tD
1-3) ²í•@Œ³C Salvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu•XŒ‹»‚Ì‹C‘Š¬’·‰ß’ö‚Ì‚•ª‰ðŒõŠwŒ°”÷ŠÏŽ@vC“ú–{•¨—Šw‰ï2009”NH‹G‘å‰ï, 2009”N9ŒŽ25-28“úCŒF–{‘åŠwD
1-4) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCuጋ»•\–Ê‚Ì•ªŽq‚‚³ƒXƒeƒbƒv‚ÌŒõŠw’¼ÚŠÏŽ@vCá•X•¨«•ª‰È‰ïƒVƒ“ƒ|ƒWƒEƒ€(2009”N10ŒŽ2“ú)C“ú–{á•XŠw‰ïá•XŒ¤‹†‘å‰ï2009, 2009”N9ŒŽ29-10ŒŽ3“úC–kŠC“¹‘åŠwDyµ‘Òu‰‰z
1-5) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu•XŒ‹»•\–Êã‚Ì’PˆÊƒXƒeƒbƒv‚Ì‚•ª‰ðŒõŠw‚»‚ÌêŠÏŽ@vC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
1-6) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–Êã‚Å‚Ì•\–Ê—Z‰ð‰ß’ö‚ÌŒõŠw‚»‚ÌêŠÏŽ@vC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
1-7) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–ʂƃvƒŠƒYƒ€–Ê‚Å‚Ì•\–ʃ‚ƒ‹ƒtƒHƒƒW[‚̈Ⴂ‚ɂ‚¢‚ÄvC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
1-8) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu‹ó‹C|•XŒ‹»ŠE–Ê‚Å‚Ì•\–Ê—Z‰ð‚¨‚æ‚у‰ƒtƒjƒ“ƒO‚ÌŒõŠw‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï2010”N”NŽŸ‘å‰ïC2010”N3ŒŽ20-23“úC‰ªŽR‘åŠwD
1-9) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêCŒÃì‹`ƒCu…|•Xi—Z‰t|Œ‹»jŠE–Ê‚Ì‚•ª‰ðŒõŠw‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï2011”N”NŽŸ‘å‰ïC2011”N3ŒŽ25-28“úCVŠƒ‘åŠwiŠw‰ï‚ÌŠJÃŽ©‘Ì‚Í“Œ“ú–{‘åkЂ̂½‚ß‚É’†Ž~‚³‚ê‚邪Cu‰‰—\eW‚ª”Š§‚³‚ê‚Ä‚¢‚邱‚Æ‚©‚çC”•\‚ͬ—§‚µ‚½‚ÆŒ©‚È‚³‚ꂽjD
1-10) ²í•@Œ³C’†’ØrˆêCŒÃì‹`ƒCu…|•XŠE–Ê‚Å‚Ì•s“€ƒ^ƒ“ƒpƒNŽ¿Œø‰Ê‚Ì‚•ª‰ðŒõŠw‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï2011”NH‹G‘å‰ï, 2011”N9ŒŽ21-24“úC•xŽR‘åŠwD
1-11) ²í•@Œ³C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»‚̬’·‚É‹y‚Ú‚·•s“€ƒ^ƒ“ƒpƒNŽ¿‚ÌŒø‰Ê‚Ì‚•ª‰ðŒõŠwŠÏŽ@vC‘æ41‰ñŒ‹»¬’·‘“à‰ï‹c, 2011”N11ŒŽ3-5“úC‚‚‚Αۉï‹cêD
1-12) ´“c’B‰›C²í•@Œ³CSalvador ZepedaC‰F“cKOCŒÃì‹`ƒCu‘½Œ‹»•X‚ÌÄŒ‹»‰»‰ß’ö‚É‹y‚Ú‚·•s“€ƒ^ƒ“ƒpƒNŽ¿‚̉e‹¿vC‘æ41‰ñŒ‹»¬’·‘“à‰ï‹c, 2011”N11ŒŽ3-5“úC‚‚‚Αۉï‹cêD
1-13) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêCŒÃì‹`ƒCu’´‚Š´“x‹¤Å“_”÷•ªŠ±ÂŒ°”÷‹¾‚É‚æ‚é•X‚ÌŒ‹»¬’·‰ß’ö‚Ì’¼ÚŠÏŽ@vCƒVƒ“ƒ|ƒWƒEƒ€FŒõŠw‚ªØ‚è‘ñ‚•ª–쉡’fŒ¤‹†C“ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïC2011”N11ŒŽ29“úC‘åã‘åŠwDyµ‘Òu‰‰z
1-14) ²í•@Œ³CSalvador Zepeda, ’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒn‚ÅŒ©‚é•XŒ‹»‚Ì•ªŽqƒXƒeƒbƒv‚Æ•\–Ê—Z‰ðvCƒVƒ“ƒ|ƒWƒEƒ€F•\–ÊEŠE–Ê‚É‚¨‚¯‚é…‚Ì‹““®‚Æ–ðŠ„C‘æ31‰ñ•\–ʉȊwŠwpu‰‰‰ï,2011”N12ŒŽ15-17“úCƒ^ƒ[ƒz[ƒ‹‘D–xDyµ‘Òu‰‰z
1-15) ´“c’B‰›C²í•@Œ³CSalvador ZepedaC‰F“cKOC’·“ˆ@Œ•CŒÃì‹`ƒCu‘½Œ‹»•X‚ÌÄŒ‹»‰»‰ß’ö‚É‹y‚Ú‚·•s“€ƒ^ƒ“ƒpƒNŽ¿‚̉e‹¿vC“ú–{•¨—Šw‰ï2012”N”NŽŸ‘å‰ïC2012”N3ŒŽ24-27“úCŠÖ¼Šw‰@‘åŠw¼‹{ãƒPŒ´ƒLƒƒƒ“ƒpƒXD
1-16) G. Sazaki, gIn-situ optical observation for elucidating antifreeze mechanisms of water by proteinh, JST‚³‚«‚ª‚¯Œ¤‹†—̈懓¯‘ÛƒVƒ“ƒ|ƒWƒEƒ€uŽ‘±‚·‚éŽÐ‰ï‚ð擱‚·‚éŒõ‰ÈŠwFŠÂ‹«EƒGƒlƒ‹ƒM[E‹@”\Þ—¿vC“ú–{‰»Šw‰ï‘æ92t‹G”N‰ïC2012”N3ŒŽ26-27“úCŒcœä‹`m‘åŠw“ú‹gƒLƒƒƒ“ƒpƒXD
1-17) ²í•@Œ³CƒTƒ‹ƒoƒh[ƒ‹Eƒ[ƒyƒ_C’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷‹¾‚Å‚Ý‚é•XŒ‹»‚̬’·‘f‰ß’ö‚Æ•\–Ê—Z‰ðvC‘æ4‰ñŒ¤‹†¬W‰ïFH•i‚Æ…C“ú–{H•i‰ÈŠwHŠw‰ï‘æ59‰ñ‘å‰ïC2012”N8ŒŽ30“úC“¡—Žq‘åŠwDyµ‘Òu‰‰z
1-18) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu˜c‚Ý‚É‚æ‚è—U‹N‚³‚ê‚é•XŒ‹»•\–Ê‚Å‚Ì‹^Ž—‰t‘Ì‘w‚̶¬vC“ú–{•¨—Šw‰ï2012”NH‹G‘å‰ïC2012”N9ŒŽ18-21“úC‰¡•l‘—§‘åŠwD
1-19) –ƒì–¾rC²è@Œ³C’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•X•\–Êã‚Å‚Ì‹^Ž—‰t‘Ì‘w‚̶¬‹““®‚ɑ΂·‚éƒKƒX‚̉e‹¿vC“ú–{•¨—Šw‰ï2012”NH‹G‘å‰ïC2012”N9ŒŽ18-21“úC‰¡•l‘—§‘åŠwD
1-20) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»’ê–Ê‚Å‚Ì•\–ʉt‘Ì‘Š‚̶¬‚Ƙc‚Ý‚ÌŒø‰ÊvCƒVƒ“ƒ|ƒWƒEƒ€FŒ‹»•\–Ê---Å‹ß‚Ì—˜_‚Æ‚»‚ÌêŠÏŽ@C‘æ42‰ñŒ‹»¬’·‘“à‰ï‹cC2012”N11ŒŽ9-11“úC‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰z
1-21) –ƒì–¾rC²í•@Œ³C’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•X•\–ʂŶ¬‚·‚é‹[Ž—‰t‘Ì‘w‚̈À’è«vC‘æ42‰ñŒ‹»¬’·‘“à‰ï‹cC2012”N11ŒŽ9-11“úC‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXD
1-22) –ƒì–¾rC²í•@Œ³C’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–Êã‚Å‚Ì’PˆÊƒXƒeƒbƒv‚̬’·ƒJƒCƒlƒeƒBƒNƒXvC“ú–{•¨—Šw‰ï2013”N”NŽŸ‘å‰ïC2012”N3ŒŽ26-29“úCL“‡‘åŠw“ŒL“‡ƒLƒƒƒ“ƒpƒXD
1-23) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»’ê–Ê‚Å‚Ì•\–ʉt‘Ì‘Ši‹[Ž—‰t‘Ì‘wj‚̶¬‚Ƙc‚Ý‚ÌŒø‰ÊvC2013”N“ú–{Œ‹»¬’·Šw‰ï“Á•Êu‰‰‰ïFƒoƒCƒI—L‹@•¨Ž¿‚É‚¨‚¯‚錋»¬’·-‚»‚ÌŠî‘b‚Ɖž—p-C2013”N5ŒŽ17“úCƒLƒƒƒ“ƒpƒXƒCƒmƒx[ƒVƒ‡ƒ“ƒZƒ“ƒ^[“Œ‹ž‘Û‰ï‹cŽºDyµ‘Òu‰‰z
1-24) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»•\–Ê‚Å‚Ì‹[Ž—‰t‘Ì‘w¶¬‰ß’ö‚ÌŒõŠw‚»‚ÌêŠÏŽ@vCŽ‘Œ¹E‘fÞŠw‰ïC2013”N9ŒŽ3-5“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰ziu‰‰‚Í9ŒŽ3“új
1-25) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»•\–Ê‚ÌŒõŠw‚»‚ÌêŠÏŽ@F•\–Ê—Z‰ð‚É‚æ‚é‹[Ž—‰t‘Ì‘w‚̶¬vC‘æ40‰ñH•i‚Ì•¨«‚ÉŠÖ‚·‚éƒVƒ“ƒ|ƒWƒEƒ€C2013”N9ŒŽ20-21“úCƒ‹ƒ|[ƒ‹Ž]Šòi쌧‚¼ŽsjDyµ‘Òu‰‰ziu‰‰‚Í9ŒŽ20“új
1-26) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–Êã‚ł̉QŠªƒXƒeƒbƒv‚Ì\‘¢‚ɂ‚¢‚ÄvC“ú–{•¨—Šw‰ï2013”NH‹G‘å‰ïC2013”N9ŒŽ25-28“úC“¿“‡‘åŠwíŽO“‡ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ25“új
1-27) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷‹Zp‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðŒ»ÛvC‘æ9‰ñŠwۗ̈æ‚É‚¨‚¯‚镪ŽqƒCƒ[ƒWƒ“ƒOƒtƒH[ƒ‰ƒ€C2013”N10ŒŽ29“úCJAXA’²•zq‹ó‰F’ˆƒZƒ“ƒ^[Dyµ‘Òu‰‰z
1-28) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»‚Ì•\–Ê—Z‰ð‰ß’ö‚Ì‚•ª‰ðŒõŠwŠÏŽ@vC“ú–{‰»Šw‰ï—L‹@Œ‹»•”‰ï‘æ22‰ñ—L‹@Œ‹»ƒVƒ“ƒ|ƒWƒEƒ€C2013”N10ŒŽ30“ú`11ŒŽ1“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰ziu‰‰‚Í11ŒŽ‚P“új
1-29) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»•\–Êã‚̉QŠªƒXƒeƒbƒv‚Ì\‘¢‚ɂ‚¢‚ÄvC‘æ43‰ñŒ‹»¬’·‘“à‰ï‹cC2013”N11ŒŽ6-8“úC’·–ìŽs¶ŠUŠwKƒZƒ“ƒ^[(TOiGO“à)Diu‰‰‚Í11ŒŽ6“új
1-30) –ƒì–¾rC²í•@Œ³C’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–Êã‚Å‚Ì’PˆÊƒXƒeƒbƒv‚̬’·ƒJƒCƒlƒeƒBƒNƒXvC‘æ43‰ñŒ‹»¬’·‘“à‰ï‹cC2013”N11ŒŽ6-8“úC’·–ìŽs¶ŠUŠwKƒZƒ“ƒ^[(TOiGO“à)Diu‰‰‚Í11ŒŽ6“új
1-31) ²í•@Œ³Cu•X‚ÌV‚µ‚¢—Z‚¯•û‚𔌩Fƒ[ƒ“xˆÈ‰º‚ÅŒ»‚ê‚é‚QŽí—ނ̉t‘̂ɂ‚¢‚ÄvC¢ŠEŒ‹»”N(IYCr2014)ƒI[ƒvƒjƒ“ƒOƒVƒ“ƒ|ƒWƒEƒ€C2014”N1ŒŽ23“úC“ú–{Šwp‰ï‹cu“°Dyµ‘Òu‰‰z
1-32) ²í•@Œ³C–ƒì–¾rC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u•XŒ‹»•\–Ê‚Ì‹[Ž—‰t‘Ì‘w‚̶¬‹@\‚Æ”M—ÍŠw“IˆÀ’è«vC—̈æ9, 11‡“¯ƒVƒ“ƒ|ƒWƒEƒ€u•X‚ÌŒ‹»¬’·-ŽÀŒ±‚ƃVƒ~ƒ… ƒŒ[ƒVƒ‡ƒ“‚É‚æ‚éÅ‹ß‚Ìi“WvC“ú–{•¨—Šw‰ï‘æ69‰ñ”NŽŸ‘å‰ïC2014”N3ŒŽ27-30“úC“ŒŠC‘åŠwÓìƒLƒƒƒ“ƒp ƒXDyµ‘Òu‰‰ziu‰‰‚Í3/30j
1-33)–ƒì–¾rC²í•@Œ³C’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ,u‹C‘Š‚©‚笒·‚·‚é•XŒ‹»‚Ì’PˆÊƒXƒeƒbƒv‚̬’·ƒJƒCƒlƒeƒBƒNƒXvC“ú–{•¨—Šw‰ï‘æ69‰ñ”NŽŸ‘å‰ïC2014”N3ŒŽ27-30“úC“ŒŠC‘åŠwÓìƒLƒƒƒ“ƒp ƒXDiu‰‰‚Í3/29j
1-34) M. Yokomine, H. Sato, K. Tsukamoto, G. Sazaki, "Advanced techniques in the latest quantitative image analysis for crystal growth experiments", Japan Geoscience Union Meeting 2014, Makuhari Messe International Conference Hall, Chiba, April 28-May 2, 2014; ‰¡•ô@½C²“¡‹v•vC’Ë–{Ÿ’jC²í•@Œ³CuŒ‹»¬’·ŽÀŒ±‚Ì‚½‚߂̉摜’è—ʉðÍ‹Zp‚ÌÅ‘OüvC“ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ïC20014”N4ŒŽ28“ú-5ŒŽ2“úC–‹’£ƒƒbƒZ‘Û‰ï‹cêCç—tDiu‰‰‚Í5/1j
1-35) ŒÃì‹`ƒC’·“ˆ@Œ•C–ƒì–¾rC’†’ØrˆêC‘º“cŒ›ˆê˜YC²í•@Œ³C‹gè@òC“cŠÛ°C“‡‰ª‘¾˜YC‘]ª••FC^–ØF—YCŽR–{–¾“úŒjCu•XŒ‹»‚ÌŽ©—ãU“®¬’·-‘Û‰F’ˆƒXƒe[ƒVƒ‡ƒ“ŽÀŒ±‚ÌŠT—v-vC‘æ44‰ñŒ‹»¬’·‘“à‰ï‹cC2014”N11ŒŽ6-8“úCŠwK‰@‘åŠwDiu‰‰‚Í11ŒŽ7“új
1-36) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC–ƒì–¾rC‘º“cŒ›ˆê˜YC’†’ØrˆêCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–ʂ̬’·‚É—^‚¦‚鉖‰»…‘fƒKƒX‚ÌŒø‰ÊvC‘æ44‰ñŒ‹»¬’·‘“à‰ï‹cC2014”N11ŒŽ6-8“úCŠwK‰@‘åŠwDiu‰‰‚Í11ŒŽ7“új
1-37) –ƒì–¾rC²í•@Œ³C‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XƒvƒŠƒYƒ€–Êã‚Å‚Ì‚QŽí—Þ‚Ì‹[Ž—‰t‘Ì‘w‚̶¬‰ß’övC‘æ44‰ñŒ‹»¬’·‘“à‰ï‹cC2014”N11ŒŽ6-8“úCŠwK‰@‘åŠwDiu‰‰‚Í11ŒŽ7“új
1-38) ‘º“cŒ›ˆê˜YC–ƒì–¾rC’·“ˆ@Œ•CŒÃì‹`ƒC²í•@Œ³CuŒ‹»‚Ì—Z‰ð‰ß’ö‚É‚¨‚¯‚é“®“IŠK‘w«vC“ú–{•¨—Šw‰ï‘æ70‰ñ”NŽŸ‘å‰ïC2015”N3ŒŽ21-24“úC‘ˆî“c‘åŠw‘ˆî“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3ŒŽ21“új
1-39) –ƒì–¾rC²í•@Œ³C‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒCu•XŒ‹»•\–ʂŶ¬‚·‚é‚QŽí—Þ‚Ì‹[Ž—‰t‘Ì‘w‚̈À’è«vC“ú–{•¨—Šw‰ï‘æ70‰ñ”NŽŸ‘å‰ïC2015”N3ŒŽ21-24“úC‘ˆî“c‘åŠw‘ˆî“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3ŒŽ22“új
1-40) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC–ƒì–¾rC‘º“cŒ›ˆê˜YC’†’ØrˆêCŒÃì‹`ƒCu•Xƒx[ƒTƒ‹–ʂ̬’·‚É—^‚¦‚鉖‰»…‘fƒKƒX‚ÌŒø‰ÊvC“ú–{•¨—Šw‰ï‘æ70‰ñ”NŽŸ‘å‰ïC2015”N3ŒŽ21-24“úC‘ˆî“c‘åŠw‘ˆî“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3ŒŽ22“új
1-41) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðvCÞ—¿EŠE–Ê“¢˜_‰ïuÞ—¿‘n»‚ÆŠE–ʧŒä‚ÌÅ‘OüvC‰»ŠwHŠw‰ï‘æ47‰ñH‹G‘å‰ïC2015”N9ŒŽ9-11“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/9jyµ‘Òu‰‰z
1-42) ’·“ˆ@Œ•, ²í•@Œ³, ‰H”n“N–ç, ‘º“cŒ›ˆê˜Y, ’†’Ørˆê, ŒÃì‹`ƒCu‰–‰»…‘fƒKƒX‚É‚æ‚Á‚Ä•Xƒx[ƒTƒ‹–ʂɶ¬‚·‚é‰t‘Ì‘wvC “ú–{•¨—Šw‰ï2015”NH‹G‘å‰ïC2015”N9ŒŽ16-19“úCŠÖ¼‘åŠwç—¢ŽRƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/17j
1-43) ’·“ˆ@Œ•, ²í•@Œ³, ‰H”n“N–ç, ‘º“cŒ›ˆê˜Y, ’†’Ørˆê, ŒÃì‹`ƒCu‰–‰»…‘fƒKƒX‚É‚æ‚Á‚Ä•Xƒx[ƒTƒ‹–ʂɶ¬‚·‚é‰t‘ÌvC‘æ45‰ñŒ‹»¬’·‘“à‰ï‹cC2015”N10ŒŽ19-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10/19j
1-44) ‘º“cŒ›ˆê˜YC–ƒì–¾r, ’·“ˆ@Œ•, ŒÃì‹`ƒ, ²í•@Œ³Cu”G‚ꌻۂ©‚猩‚½•X‚Ì•\–Ê—Z‰ðvC‘æ45‰ñŒ‹»¬’·‘“à‰ï‹cC2015”N10ŒŽ19-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10/19j
1-45) ‘º“cŒ›ˆê˜YC–ƒì–¾r, ’·“ˆ@Œ•, ŒÃì‹`ƒ, ²í•@Œ³Cu•X•\–Êã‚É‚¨‚¯‚é‹[Ž—‰t‘Ì‘w‚Ì”G‚êƒ_ƒCƒiƒ~ƒNƒXFŒ°”÷‹¾‚»‚ÌêŠÏŽ@‚É‚æ‚é‹[Ž—‰t‘Ì‘w‚Ì•¨«‘ª’èvC‘æ45‰ñŒ‹»¬’·‘“à‰ï‹cC2015”N10ŒŽ19-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10/19j
1-46) ’·“ˆŒ•, ²í•@Œ³, ‰H”n“N–ç, ‘º“cŒ›ˆê˜Y, ŒÃì‹`ƒCu•X•\–ʂɶ‚¶‚鉖Ž_‰t“H‹““®‚Ì…ö‹C—ʈˑ¶«vC“ú–{•¨—Šw‰ï‘æ71‰ñ”NŽŸ‘å‰ïC2016”N3ŒŽ19-22“úC“Œ–kŠw‰@‘åŠwòƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3/21j
1-47) ‘º“cŒ›ˆê˜Y, –ƒì–¾r, ’·“ˆ Œ•, ŒÃì‹`ƒ, ²í• Œ³Cu”G‚ꌻۂ©‚猩‚½•X‚Ì•\–Ê—Z‰ðvC“ú–{•¨—Šw‰ï‘æ71‰ñ”NŽŸ‘å‰ïC2016”N3ŒŽ19-22“úC“Œ–kŠw‰@‘åŠwòƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3/21j
1-48) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•CŒÃì‹`ƒ, u‚•ª‰ð”\ŒõŠwŒ°”÷‹¾‚ÅŒ©‚½•X‚Ì•\–Ê—Z‰ðvCƒVƒ“ƒ|ƒWƒEƒ€uH•i‚̃~ƒNƒ\‘¢‚ðŠÏ‚évCH•i‰ÈŠwHŠw‰ï‘æ63‰ñ‘å‰ïC2016”N8ŒŽ25-27“úC–¼é‘åŠw“V”’ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í8/26jyµ‘Òu‰‰z
1-49) ‘º“cŒ›ˆê˜YCu•X•\–Êã‚É‚¨‚¯‚é‹[Ž—‰t‘Ì‘w‚Ì”G‚êƒ_ƒCƒiƒ~ƒNƒXFŒ°”÷‹¾‚»‚ÌêŠÏŽ@‚É‚æ‚é‹[Ž—‰t‘Ì‘w‚Ì•¨«‘ª’èvC“ú–{•¨—Šw‰ï2016”NH‹G‘å‰ïC2016”N9ŒŽ13-16“úC‹à‘ò‘åŠwŠpŠÔƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/15jyµ‘Òu‰‰z
1-50) ’–ŒÒ«O, ’·“ˆŒ•, ‘º“cŒ›ˆê˜Y, ²í•@Œ³Cu•XŒ‹»•\–Ê‚Å‚Ì’PˆÊƒXƒeƒbƒv‚̬’·‘¬“x‚ÆŠÔŠu‚Ì‚»‚ÌêŒv‘ªvC“ú–{•¨—Šw‰ï2016”NH‹G‘å‰ïC2016”N9ŒŽ13-16“úC‹à‘ò‘åŠwŠpŠÔƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/15j
1-51) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u‚•ª‰ðŒõŠwŒ°”÷‹¾‚É‚æ‚é•X•\–Ê‚Å‚Ì‹[Ž—‰t‘Ì‘w¶¬‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC“ú–{^‹óŠw‰ï2016”N10ŒŽŒ¤‹†—á‰ïC“ú–{•\–ʉȊw‰ï2016”N“Œ–kE–kŠC“¹Žx•”Œ¤‹†‰ïCu^‹ó‚Æ…E•\–Ê‚Æ•XFg‹ß‚È•¨Ž¿‚Ì•¨—‚Ɖ»ŠwvC2016”N10ŒŽ6“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰z
1-52) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, uƒ[ƒŽˆÈ‰º‚̉·“x‚Å‚à—Z‚¯‚é•X•\–Ê‚Ì•sŽv‹cFŒ´Žq‚‚³‚ðŒ©•ª‚¯‚邱‚Æ‚ª‚Å‚«‚éŒõŠwŒ°”÷‹¾‚Å‚Ý‚½•XŒ‹»‚Ì•\–ÊvC‘æ41‰ñ“ú–{Œ°”÷‹¾Šw‰ïŠÖ“ŒŽx•”u‰‰‰ïC2017”N2ŒŽ25“úCŽY‹Æ‹Zp‘‡Œ¤‹†Š—ÕŠC•›“sSƒZƒ“ƒ^[Dyµ‘Òu‰‰z
1-53) ’–ŒÒ«O, ²í•@Œ³, ’·“ˆ@Œ•, ‘º“cŒ›ˆê˜YCu•XŒ‹»‚Ì’PˆÊƒXƒeƒbƒv¬’·ƒJƒCƒlƒeƒBƒNƒX‚̉·“xˆË‘¶«vC“ú–{•¨—Šw‰ï‘æ72‰ñ”NŽŸ‘å‰ïC2017”N3ŒŽ17-20“úC‘åã‘åŠw–L’†ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3/19j
1-54) ‘º“cŒ›ˆê˜YC²í•@Œ³Cu•XŒ‹»ã‚É‚¨‚¯‚é‹[Ž—‰t‘Ì‘w‚Ì”G‚êƒ_ƒCƒiƒ~ƒNƒXvC“ú–{•¨—Šw‰ï‘æ72‰ñ”NŽŸ‘å‰ïC2017”N3ŒŽ17-20“úC‘åã‘åŠw–L’†ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3/19j
1-55) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, uƒ[ƒŽˆÈ‰º‚̉·“x‚Å‚à”G‚ê‚Ä‚¢‚é•XŒ‹»•\–Ê‚Ì•sŽv‹cF‚QŽí—Þ‚Ì‹[Ž—‰t‘Ì‘wvC‘æ62‰ñ’ቷ¶•¨HŠw‰ï‘å‰ïC2017”N5ŒŽ20-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰ziu‰‰‚Í5ŒŽ20“új
1-56) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC‘º“cŒ›ˆê˜YCŒÃì‹`ƒCu‰–‰»…‘fƒKƒX‚É‚æ‚Á‚Ä•X•\–ʂɶ‚¶‚é‰t‘Ì‘w‚Ì‚»‚ÌêŠÏŽ@vC“ú–{’n‹…˜f¯‰ÈŠw˜A‡C2017”N5ŒŽ20-25“úC–‹’£ƒƒbƒZD
1-57) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC‘º“cŒ›ˆê˜YCŒÃì‹`ƒCu‚•ª‰ð”\ŒõŠwŒ°”÷‹¾‚É‚æ‚Á‚ĉŽ‹‰»‚³‚ꂽ•X‚Ì•\–Ê—Z‰ðŒ»ÛvC“ú–{’n‹…˜f¯‰ÈŠw˜A‡C2017”N5ŒŽ20-25“úC–‹’£ƒƒbƒZD
1-58) Jialu Chen, Ken Nagashima, Ken-ichiro Murata, Gen Sazaki, uSurface melting of polycrystalline icevC“ú–{•¨—Šw‰ï2017”NH‹G‘å‰ïC2017”N9ŒŽ21-24“úCŠâŽè‘åŠwã“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/23j
1-59) ’·“ˆŒ•, ²í•@Œ³, ‰H”n“N–ç, ‘º“cŒ›ˆê˜Y, ŒÃì‹`ƒCu‹C‘Š¬’·‚É‚æ‚Á‚Ä•X“à•”‚É–„‚ßž‚܂ꂽ‰–Ž_‰t“H•ï—L•¨vC“ú–{•¨—Šw‰ï2017”NH‹G‘å‰ïC2017”N9ŒŽ21-24“úCŠâŽè‘åŠwã“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/23j
1-60) ‘º“cŒ›ˆê˜Y, ²í•@Œ³,u‚•ª‰ðŒõŠwŒ°”÷‹¾‚É‚æ‚錋» —Z‰tŠE–Ê‚Ì‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï2017”NH‹G‘å‰ïC2017”N9ŒŽ21-24“úCŠâŽè‘åŠwã“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/23j
1-61) ‘º“cŒ›ˆê˜Y, ²í•@Œ³,u‚•ª‰ðŒõŠwŒ°”÷‹¾‚É‚æ‚é•X-…¬’·E—Z‰ðŠE–Ê‚Ì‚»‚ÌêŠÏŽ@vC‘æ46‰ñŒ‹»¬’·‘“à‰ï‹cC2017”N11ŒŽ27-29“úCƒzƒeƒ‹ƒRƒ“ƒRƒ‹ƒh•l¼Diu‰‰‚Í11/27j
1-62) ’–ŒÒ«OC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C–ƒì–¾rC’†’ØrˆêCŒÃì‹`ƒC²í•@Œ³Cu•XŒ‹»‚Ì’PˆÊƒXƒeƒbƒv¬’·ƒJƒCƒlƒeƒBƒNƒX‚̉·“xˆË‘¶«vC‘æ46‰ñŒ‹»¬’·‘“à‰ï‹cC2017”N11ŒŽ27-29“úCƒzƒeƒ‹ƒRƒ“ƒRƒ‹ƒh•l¼Diu‰‰‚Í11/27j
1-63) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC‘º“cŒ›ˆê˜YCŒÃì‹`ƒCu‹C‘Š¬’·‚É‚æ‚Á‚Ä•\–ʉt‘Ì‘wŒo—R‚Å•X“à•”‚ÉŽæ‚èž‚Ü‚ê‚鉖‰»…‘fƒKƒXvC‘æ46‰ñŒ‹»¬’·‘“à‰ï‹cC2017”N11ŒŽ27-29“úCƒzƒeƒ‹ƒRƒ“ƒRƒ‹ƒh•l¼Diu‰‰‚Í11/27j
1-64) Jialu Chen, Ken Nagashima, Ken-ichiro Murata, Gen Sazaki, uFormation of quasi-liquid layers on polycrystalline icevC‘æ46‰ñŒ‹»¬’·‘“à‰ï‹cC2017”N11ŒŽ27-29“úCƒzƒeƒ‹ƒRƒ“ƒRƒ‹ƒh•l¼Diu‰‰‚Í11/27j
1-65) ‘º“cŒ›ˆê˜YC²í•@Œ³Cu‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•X-…¬’·E—Z‰ðŠE–Ê‚Ì\‘¢‚ƃ_ƒCƒiƒ~ƒNƒXvC“ú–{•¨—Šw‰ï‘æ73‰ñ”NŽŸ‘å‰ïC2018”N3ŒŽ22-25“úC“Œ‹ž—‰È‘åŠw–ì“cƒLƒƒƒ“ƒpƒXDi”•\‚Í3ŒŽ23“új
1-66) Jialu Chen, Ken Nagashima, Ken-ichiro Murata, Gen Sazaki, uThe temperature range of the existence of quasi-liquid layers on polycrystalline icevC“ú–{•¨—Šw‰ï‘æ73‰ñ”NŽŸ‘å‰ïC2018”N3ŒŽ22-25“úC“Œ‹ž—‰È‘åŠw–ì“cƒLƒƒƒ“ƒpƒXDi”•\‚Í3ŒŽ23“új
1-67) Jialu Chen, Ken Nagashima, Ken-ichiro Murata, Gen Sazaki, uThe emergence of quasi-lilquid layers on ice polycrystalline thin filmsvC“ú–{•¨—Šw‰ï2018”NH‹G‘å‰ïC2018”N9ŒŽ9-12“úC“¯ŽuŽÐ‘åŠw‹ž“c•ÓƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9/9j
1-68) ‘º“cŒ›ˆê˜YC²í•@Œ³Cu‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•X-…¬’·E—Z‰ðŠE–Ê‚Ì\‘¢‚ƃ_ƒCƒiƒ~ƒNƒXvC‘æ47‰ñŒ‹»¬’·‘“à‰ï‹cC2018”N10ŒŽ31“ú-11ŒŽ2“úCå‘äŽsíЕœ‹»‹L”O‰ïŠÙDi”•\‚Í10ŒŽ31“új
1-69) Jialu Chen, Ken-ichiro Murata, Ken Nagashima, Gen Sazaki, uThe appearance of quasi-liquid layers from grain boundaries of polycrystalline ice thin filmsvC‘æ47‰ñŒ‹»¬’·‘“à‰ï‹cC2018”N10ŒŽ31“ú-11ŒŽ2“úCå‘äŽsíЕœ‹»‹L”O‰ïŠÙDi”•\‚Í10ŒŽ31“új
1-70) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC‘º“cŒ›ˆê˜YCŒÃì‹`ƒCu‹C‘Š¬’·‚·‚é•X•\–Ê‚É—^‚¦‚éŽ_«ƒKƒX‚̉e‹¿vC‘æ47‰ñŒ‹»¬’·‘“à‰ï‹cC2018”N10ŒŽ31“ú-11ŒŽ2“úCå‘äŽsíЕœ‹»‹L”O‰ïŠÙDi”•\‚Í10ŒŽ31“új
1-71) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u•XŒ‹»•\–Ê‚Ì‚•ª‰ðŒõŠwƒCƒ[ƒWƒ“ƒOF2Ží—Þ‚Ì‹[Ž—‰t‘Ì‘w‚̶¬‚ɂ‚¢‚ÄvC2018”N“x“ú–{•ªŒõŠw‰ï–kŠC“¹Žx•”ƒVƒ“ƒ|ƒWƒEƒ€u•ªŒõƒCƒ[ƒWƒ“ƒO‚ÌŒ»Ý‚Æ–¢—ˆvC2019”N2ŒŽ1“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰z
1-72) ‘º“cŒ›ˆê˜YC²í•@Œ³Cu•X-…¬’·ŠE–Ê‚É‚¨‚¯‚éƒXƒeƒbƒvƒ_ƒCƒiƒ~ƒNƒXvC“ú–{•¨—Šw‰ï‘æ74‰ñ”NŽŸ‘å‰ïC2019”N3ŒŽ14-17“úC‹ãB‘åŠwˆÉ“sƒLƒƒƒ“ƒpƒXDi”•\‚Í3ŒŽ15“új
1-73) Jialu Chen, Ken-ichiro Murata, Ken Nagashima, Gen Sazaki, uLiquid in grain boundaries of polycrystalline ice thin filmsvC“ú–{•¨—Šw‰ï‘æ74‰ñ”NŽŸ‘å‰ïC2019”N3ŒŽ14-17“úC‹ãB‘åŠwˆÉ“sƒLƒƒƒ“ƒpƒXDi”•\‚Í3ŒŽ15“új
1-74) ²í•@Œ³C–ƒì–¾rC‘º“cŒ›ˆê˜YC’·“ˆ@Œ•C’†’ØrˆêCŒÃì‹`ƒ, u‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•X‚Ì•\–Ê—Z‰ðF2Ží—Þ‚Ì‹[Ž—‰t‘Ì‘w‚Æ‚»‚̶¬‹@\vC‘æ117‰ñƒgƒ‰ƒCƒ{ƒƒW[Œ¤‹†•ª‰È‰ïC2019”N5ŒŽ15“úC“Œ•”ƒrƒ‹‚PŠK‰ï‹cŽºi“Œ‹ž“s`‹æjDyµ‘Òu‰‰z
1-75) ²í•@Œ³C‘º“cŒ›ˆê˜YC’·“ˆ@Œ•CŒÃì‹`ƒCuƒ[ƒ°CˆÈ‰º‚̉·“x‚Å‚à—Z‚¯‚Ä‚¢‚é•X•\–Ê‚Ì•sŽv‹cvC‘æ80‰ñ‹L”OƒVƒ“ƒ|ƒWƒEƒ€u–kˆÜ43°‚©‚ç‚Ì“Æ‘nŒ¤‹†”MvC2019”N‘æ80‰ñ‰ž—p•¨—Šw‰ïH‹GŠwpu‰‰‰ïC2019”N9ŒŽ18-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ20“újyµ‘Òu‰‰z
1-76) ‘º“cŒ›ˆê˜YC²í•@Œ³Cu•X-…¬’·ŠE–Ê‚É‚¨‚¯‚éƒXƒeƒbƒvƒ_ƒCƒiƒ~ƒNƒX‚Ì‚»‚ÌêŠÏŽ@vC‘æ48‰ñŒ‹»¬’·‘“à‰ï‹cC2019”N10ŒŽ30“ú`11ŒŽ1“úC‘åã‘åŠw“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10ŒŽ30“új
1-77) Jialu Chen, Ken-ichiro Murata, Ken Nagashima, Gen Sazaki, uBehavior of QLLs on grain boundaries of polycrystalline ice thin filmsvC ‘æ48‰ñŒ‹»¬’·‘“à‰ï‹cC2019”N10ŒŽ30“ú`11ŒŽ1“úC‘åã‘åŠw“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10ŒŽ30“új
1-78) ’·“ˆ@Œ•C²í•@Œ³C‰H”n“N–çC‘º“cŒ›ˆê˜YCŒÃì‹`ƒCuŽ_«—n‰t‚Æ‚µ‚Ä•X‚É’~‚¦‚ç‚ê‚éŽ_«ƒKƒXvC‘æ48‰ñŒ‹»¬’·‘“à‰ï‹cC2019”N10ŒŽ30“ú`11ŒŽ1“úC‘åã‘åŠw“cƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10ŒŽ30“új
1-79) ‘º“cŒ›ˆê˜YCu•X‚Ì•\–Ê—Z‰ð‹@\‚̉ð–¾vC—̈æ9“ú–{•¨—Šw‰ïŽáŽè§—ãÜŽóÜ‹L”Ou‰‰C“ú–{•¨—Šw‰ï‘æ75‰ñ”NŽŸ‘å‰ïC2020”N3ŒŽ16-19“úC–¼ŒÃ‰®‘åŠw“ŒŽRƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3ŒŽ16“ú‚É—\’肳‚ê‚Ä‚¢‚½‚ªCƒRƒƒiƒEƒCƒ‹ƒX‚Ì‚½‚ßCŒ»’nŠJÃ’†Ž~D‚½‚¾‚µCŠw‰ï”•\‚ͬ—§j
1-80) Jialu Chen, Ken-ichiro Murata, Ken Nagashima, Gen Sazaki, uSurface melting on grain boundaries of polycrystalline ice thin filmsvC“ú–{•¨—Šw‰ï‘æ75‰ñ”NŽŸ‘å‰ïC2020”N3ŒŽ16-19“úC–¼ŒÃ‰®‘åŠw“ŒŽRƒLƒƒƒ“ƒpƒXDiu‰‰‚Í3ŒŽ17“ú‚É—\’肳‚ê‚Ä‚¢‚½‚ªCƒRƒƒiƒEƒCƒ‹ƒX‚Ì‚½‚ßCŒ»’nŠJÃ’†Ž~D‚½‚¾‚µCŠw‰ï”•\‚ͬ—§j
1-81) Jialu Chen, Ken Nagashima, Ken-ichiro Murata, Gen Sazaki, uSurface melting of polycrystalline ice thin films just below the melting pointv, “ú–{•¨—Šw‰ï2020”NH‹G‘å‰ïC2020”N9ŒŽ8-11“úCƒIƒ“ƒ‰ƒCƒ“ŠJÃDiu‰‰‚Í9ŒŽ8“új
1-82) ‘º“cŒ›ˆê˜YC’·“ˆ Œ•C²í• Œ³Cu”½ŽËˆÊ‘Š·Œ°”÷‹¾‚É‚æ‚é•XŒ‹»•\–Ê‚Ì’è—ʈʑŠƒCƒ[ƒWƒ“ƒOv, “ú–{•¨—Šw‰ï2020”NH‹G‘å‰ïC2020”N9ŒŽ8-11“úCƒIƒ“ƒ‰ƒCƒ“ŠJÃDiu‰‰‚Í9ŒŽ8“új
1-83) ²í• Œ³C‘º“cŒ›ˆê˜YC’·“ˆ Œ•CŒÃì‹`ƒC–ƒì–¾rCu‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðvCƒVƒ“ƒ|ƒWƒEƒ€uSY-81 Œ‹»‰»Œ»Û‚¨‚æ‚ѻ͑€ì‚ÌV“WŠJvC‰»ŠwHŠw‰ï‘æ51‰ñH‹G‘å‰ïC2020”N9ŒŽ24-26“úCŠâŽè‘åŠwDiu‰‰‚Í9ŒŽ24“új yµ‘Òu‰‰z
1-84) ‘º“cŒ›ˆê˜YC’·“ˆ Œ•C²í• Œ³Cu”½ŽËˆÊ‘Š·Œ°”÷‹¾‚É‚æ‚é•XŒ‹»•\–Ê‚Ì‚»‚ÌêŠÏŽ@‚Æ’è—ʈʑŠƒCƒ[ƒWƒ“ƒOvC‘æ49‰ñŒ‹»¬’·‘“à‰ï‹cC2020”N11ŒŽ9“ú`11“úCŽR—œ‘åŠw‚ªƒzƒXƒg‚ƂȂ胊ƒ‚[ƒgŠJÃDiu‰‰‚Í11ŒŽ9“új
1-85) ’·“ˆ Œ•C‘º“cŒ›ˆê˜YC²í• Œ³CuŽ_«ƒKƒX‚ª•X‚Ì‹C‘Š¬’·‚Ö—^‚¦‚é•sƒ•¨Œø‰ÊvC“ú–{•¨—Šw‰ï‘æ76‰ñ”NŽŸ‘å‰ïC2021”N3ŒŽ12“ú`15“úCƒŠƒ‚[ƒgŠJÃDiu‰‰‚Í3ŒŽ13“új
1-86) ’·“ˆ Œ•C‘º“cŒ›ˆê˜YC²í• Œ³Cu‰–‰»…‘fƒKƒX‚É‚æ‚è•X•\–ʂɶ‚¶‚鉖Ž_‰t“H‚ƃoƒ“ƒ`ƒ“ƒOƒXƒeƒbƒvvC‘æ50‰ñŒ‹»¬’·‘“à‰ï‹cC2021”N10ŒŽ27“ú`29“úCƒŠƒ‚[ƒgŠJÃDiu‰‰‚Í10ŒŽ28“új
1-87) ‹{–{Œ³Ž÷C‘º“cŒ›ˆê˜YC’·“ˆ Œ•C“à WC²í• Œ³Cu•XŒ‹»ƒvƒŠƒYƒ€–Ê‚Ì’PˆÊƒXƒeƒbƒv‚̬’·ƒJƒCƒlƒeƒBƒNƒXvC‘æ50‰ñŒ‹»¬’·‘“à‰ï‹cC2021”N10ŒŽ27“ú`29“úCƒŠƒ‚[ƒgŠJÃDiu‰‰‚Í10ŒŽ28“új
1-88) ‹{–{ŒºŽ÷C‘º“cŒ›ˆê˜YC’·“ˆ Œ•C“à WC²í• Œ³Cu•XŒ‹»‚É‚¨‚¯‚é’PˆÊ‰QŠª‚«ƒXƒeƒbƒv‚̬’·ƒJƒCƒlƒeƒBƒNƒXvC“ú–{•¨—Šw‰ï‘æ77‰ñ”NŽŸ‘å‰ïC2022”N3ŒŽ15“ú`19“úCƒŠƒ‚[ƒgŠJÃDiƒ|ƒXƒ^[”•\‚Í3ŒŽ15“új
1-89) ’·“ˆ Œ•C‘º“cŒ›ˆê˜YC²í• Œ³Cu‰–‰»…‘fƒKƒX‚É‚æ‚è•X•\–Ê‚ÉoŒ»‚·‚鉖Ž_‰t“H‚ª•X‚Ì‹C‘Š¬’·‚Ö—^‚¦‚é‰e‹¿vC“ú–{•¨—Šw‰ï‘æ77‰ñ”NŽŸ‘å‰ïC2022”N3ŒŽ15“ú`19“úCƒŠƒ‚[ƒgŠJÃDiu‰‰‚Í3ŒŽ16“új
1-90) ²í• Œ³C‘º“cŒ›ˆê˜YC’·“ˆ Œ•CŒÃì‹`ƒCuŒõ•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»‚Ì•\–Ê—Z‰ðvC—L‹@ƒGƒŒƒNƒgƒƒjƒNƒXÞ—¿Œ¤‹†‰ï‘æ249‰ñu”ñ•½tŒ»ÛvC2022”N4ŒŽ22“úCZoom‚É‚æ‚郊ƒ‚[ƒgŠJÃDyµ‘Òu‰‰z
1-91) ’·“ˆ Œ•C‘º“cŒ›ˆê˜YC²í• Œ³Cu•X•\–ʂ̉–Ž_‰t“H‚ªˆø‚«‹N‚±‚·VLS¬’·‚ƃoƒ“ƒ`ƒ“ƒOƒXƒeƒbƒvvC“ú–{•¨—Šw‰ï2022”NH‹G‘å‰ïC2022”N9ŒŽ12“ú`15“úC“Œ‹žH‹Æ‘åŠw‘剪ŽRƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ14“új
1-92)–]ŒŽŒšŽ¢C‘º“cŒ›ˆê˜YCXuan ZhangCu•X‚Ì—Z‰t¬’·ŠE–Ê‚É‚¨‚¯‚é’˜Œ`¬‚Ƭ’·ƒ_ƒCƒiƒ~ƒNƒXvC“ú–{•¨—Šw‰ï2022”NH‹G‘å‰ïC2022”N9ŒŽ12“ú`15“úC“Œ‹žH‹Æ‘åŠw‘剪ŽRƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ14“új
1-93) ’·“ˆ Œ•C‘º“cŒ›ˆê˜YC²í• Œ³Cu•X•\–ʂ̉–Ž_‰t“H‚ªˆø‚«‹N‚±‚·VLS¬’·‚ƃoƒ“ƒ`ƒ“ƒOƒXƒeƒbƒvvC‘æ51‰ñŒ‹»¬’·‘“à‰ï‹cC2022”N10ŒŽ31“ú`11ŒŽ2“úCRCC•¶‰»ƒZƒ“ƒ^[iL“‡Œ§L“‡ŽsjDiu‰‰‚Í10ŒŽ31“új
1-94) –]ŒŽŒšŽ¢C‘º“cŒ›ˆê˜YCXuan ZhangCu•X‚Ì—Z‰t¬’·ŠE–Ê‚É‚¨‚¯‚é’˜Œ`¬‚Ƭ’·ƒ_ƒCƒiƒ~ƒNƒXvC‘æ51‰ñŒ‹»¬’·‘“à‰ï‹cC2022”N10ŒŽ31“ú`11ŒŽ2“úCRCC•¶‰»ƒZƒ“ƒ^[iL“‡Œ§L“‡ŽsjDiu‰‰‚Í10ŒŽ31“új
1-95) ‹{–{ŒºŽ÷CÖ“¡Žj–¾CXºˆêC‘º“cŒ›ˆê˜YC’·“ˆ Œ•C²í• Œ³Cu’ቷŠÏŽ@ƒ`ƒƒƒ“ƒo[‚ÌŠJ”‚¨‚æ‚Ñ-25°CˆÈ‰º‚É‚¨‚¯‚é•X•\–Ê’PˆÊƒXƒeƒbƒv‚ÌŒõŠw‚»‚ÌêŠÏŽ@vC‘æ51‰ñŒ‹»¬’·‘“à‰ï‹cC2022”N10ŒŽ31“ú`11ŒŽ2“úCRCC•¶‰»ƒZƒ“ƒ^[iL“‡Œ§L“‡ŽsjDiu‰‰‚Í10ŒŽ31“új
1-96) ²í• Œ³C‘º“cŒ›ˆê˜YC’·“ˆ Œ•CŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷‹¾‚ÅŒ©‚é•XŒ‹»•\–Ê‚Å‚Ì‘Š“]ˆÚŒ»ÛvC“ú–{MRS…‘f‰ÈŠw‹Zp˜AŒgŒ¤‹†‰ï‘æ8‰ñƒgƒsƒbƒNƒXŒ¤‹†‰ïC2023”N5ŒŽ19“úCƒŠƒ‚[ƒgŠJÃDiu‰‰‚Í5ŒŽ19“újyµ‘Òu‰‰z
1-97) ’·“ˆ Œ•C‘º“cŒ›ˆê˜YC²í• Œ³Cu‘å‹C’†‚ÌŽ_«ƒKƒX‚É‚æ‚Á‚Ĉø‚«‹N‚±‚³‚ê‚é•X•\–ʂ̃oƒ“ƒ`ƒ“ƒOƒXƒeƒbƒv¬’·vC“ú–{•¨—Šw‰ï‘æ78‰ñ”NŽŸ‘å‰ïC2023”N9ŒŽ16“ú`19“úC“Œ–k‘åŠw—tŽRƒLƒƒƒ“ƒpƒXEì“àƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ17“új
‚QDƒ^ƒ“ƒpƒNŽ¿‚¨‚æ‚Ѷ‘ÌŠÖ˜AÞ—¿‚ɂ‚¢‚Ä
2-1) ²í•@Œ³C¼ì˜aŽuC‘哈@Š°CŒ´”[i˜NCu’¾“b•û‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿‚Ì•ª—£F“®“IŒõŽU—–@‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚Ì—±“x•ª•z‘ª’è‚ÉŠî‚Â’¾“b¶¬‰Û’ö‚̉ðÍvC‰»ŠwHŠw‰ï‘æ 22 ‰ñHŠú‘å‰ïu‰‰—vŽ|WC 21 (1989).
2-2) ²í•@Œ³C¼ì˜aŽuC‘哈@Š°CŒ´”[i˜NCuƒT[ƒ‚ƒ‰ƒCƒVƒ“‚ÌŒ‹»‰ß’ö‚É‹y‚Ú‚·‚QC‚R‚̃Aƒ~ƒmŽ_‚¨‚æ‚у^ƒ“ƒpƒNŽ¿‚̉e‹¿vC‰»ŠwHŠw‰ï‘æ 55 ”N‰ïu‰‰—vŽ|WC 604 (1990).
2-3) ²í•@Œ³C¼ì˜aŽuC‘哈@Š°C‰Á“¡ùŽ¡CŒ´”[i˜NCuƒT[ƒ‚ƒ‰ƒCƒVƒ“‚ÌŒ‹»‰»‚É‹y‚Ú‚·ƒAƒ~ƒmŽ_‚̉e‹¿FƒAƒ~ƒmŽ_‚Ì‹z’…‹““®‚ÆŒ‹»‰»‚ɂ‚¢‚ÄvC‰»ŠwHŠw‰ï‘æ 23 ‰ñHŠú‘å‰ïu‰‰—vŽ|WC 183 (1990).
2-4) ²í•@Œ³C‘哈@Š°C‰Á“¡ùŽ¡Cu—n”}‚Æ‚µ‚Ä‚Ì…‚Ì“Á«‚©‚猩‚½ƒ^ƒ“ƒpƒNŽ¿iƒT[ƒ‚ƒ‰ƒCƒVƒ“j‚̻͋““®vC‰»ŠwHŠw‘æ 56 ”N‰ïu‰‰—vŽ|WC 50 (1991).
2-5) ²í•@Œ³C–ØC‘哈@Š°C‰Á“¡ùŽ¡Cuƒ^ƒ“ƒpƒNŽ¿iƒT[ƒ‚ƒ‰ƒCƒVƒ“j‘½Œ‹»¶¬‚Ì‹@\vC‰»ŠwHŠw‘æ 57 ”N‰ïu‰‰—vŽ|WC‘æ 3 •ªûC 56 (1992).
2-6) ²í•@Œ³C–ØC‘哈@Š°C‰Á“¡ùŽ¡Cuƒ^ƒ“ƒpƒNŽ¿Œ‹»‰»‚Ì‹@\‚ÆV‹K‚ȃ^ƒ“ƒpƒNŽ¿»Í•ª—£–@vC‰»ŠwHŠw‘æ 58 ”N‰ïu‰‰—vŽ|WC‘æ 1 •ªûC 299 (1993).
2-7) ²í•@Œ³C–ØC‘哈@Š°C‰Á“¡ùŽ¡Cuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»—±Œa‚¨‚æ‚ь”‚É‹y‚Ú‚·‰Šú–O˜a“x‚̉e‹¿vC‰»ŠwHŠw‰ï‘æ 26 ‰ñHŠú‘å‰ïu‰‰—vŽ|WC‘æ 1 •ªûC 13 (1993).
2-8) –ؑ”VC²í•@Œ³C‘哈@Š°C‰Á“¡ùŽ¡Cuy‘fƒ^ƒ“ƒpƒNŽ¿ƒT[ƒ‚ƒ‰ƒCƒVƒ“‚ÌŒ‹»‰»‚ɑ΂·‚é“®—ÍŠw“IŒŸ“¢vC‰»ŠwHŠw‰ï‘æ 26 ‰ñHŠú‘å‰ïu‰‰—vŽ|WC‘æ 1 •ªûC 14 (1993).
2-9) Š€–{‰pŒáC²í•@Œ³C¬¼@Œ[Cuƒ^ƒ“ƒpƒNŽ¿ƒRƒ“ƒJƒiƒoƒŠƒ“ A ‚ÌŒ‹»¬’·vC‘æ 26 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 22, 137 (1995) j .
2-10) ²í•@Œ³CŒIŒ´˜a’jC‹{‰º@“NC’†“cr—²C¬¼@Œ[CuŒõŠ±Â–@‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿‚Ì—n‰ð“x‘ª’èvC‘æ 51 ‰ñ“ú–{•¨—Šw‰ï”N‰ï—vŽ|WC‘æ‚Q•ªûC 1 (1996).
2-11) ’†“cr—²C‹{‰º@“NC²í•@Œ³C¬¼@Œ[Cu³•û» lysozyme ¬’·•\–ʂ̃XƒeƒbƒvƒJƒCƒlƒeƒBƒbƒNƒXvC‘æ 27 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 23, 132 (1996) j .
2-12) ’†“cr—²C²í•@Œ³C‹{‰º@“NC¬¼@Œ[CuŒ´ŽqŠÔ—ÍŒ°”÷‹¾‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿•\–Ê‚Ì‚•ª‰ð”\ŠÏŽ@vC‘æ 27 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 23, 220 (1996) j .
2-13) ²í•@Œ³CŠ€–{‰pŒáC’†“cr—²C‹{‰º@“NC¬¼@Œ[Cuƒ^ƒ“ƒpƒNŽ¿ƒRƒ“ƒJƒiƒoƒŠƒ“ A EŽÎ•û»‚Ì”÷ŽÎ–ÊŒ`¬‚Æ‚»‚̬’·—lŽ®vC‘æ 27 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 23, 285 (1996) j .
2-14) ²í•@Œ³C‹g“cŠG—¢ŽqC’†“cr—²C‹{‰º@“NC¬¼@Œ[C’W˜HC“n•Ó˜a—YC–{‰ÍŒõ”ŽCuƒ^ƒ“ƒpƒNŽ¿‚ÌŠjŒ`¬‚¨‚æ‚ÑŒ‹»•ûˆÊ‚É‹y‚Ú‚·Ž¥ê‚ÌŒø‰ÊvC‘æ 27 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 23, 286 (1996) j .
2-15) –ö’JLˆê˜YC²í•@Œ³C‹{‰º@“NC’†“cr—²C¬¼@Œ[C“n•Ó˜a—YCuŒ{—‘”’ƒŠƒ]ƒ`[ƒ€‚ÌŠjŒ`¬‚¨‚æ‚ÑŒ‹»•ûˆÊ‚É‹y‚Ú‚·Ž¥ê‚̉e‹¿vC“ú–{•¨—Šw‰ï 1996 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 1 (1996).
2-16) ŒIŒ´˜a’jC‹{‰º@“NC²í•@Œ³C’†“cr—²C¬¼@Œ[CuƒŠƒ]ƒ`[ƒ€Œ‹»‚Ì‹üÜ—¦‚Ƭ’·‘¬“x‚Ì‘ŠŠÖvC“ú–{•¨—Šw‰ï 1996 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 1 (1996).
2-17) ²í•@Œ³C–ö’JLˆê˜YC’†“cr—²C‹{‰º@“NC¬¼@Œ[C¼‰Y—ÇŽ÷CuŽíX‚Ì»Œ`‚ł̃Šƒ]ƒ`[ƒ€Œ‹»‚Ì—n‰ð“x‘ª’è‚Æ‚»‚Ì”M—ÍŠw“IlŽ@vC‘æ 52 ‰ñ“ú–{•¨—Šw‰ï”N‰ï—vŽ|WC‘æ‚Q•ªûC 101 (1997).
2-18) ’†“cr—²C‹{‰º@“NC²í•@Œ³C¬¼@Œ[Cu AFM ‚É‚æ‚郊ƒ]ƒ`[ƒ€Œ‹»¬’·‰ß’ö‚ÌŠÏŽ@vC‘æ 52 ‰ñ“ú–{•¨—Šw‰ï”N‰ï—vŽ|WC‘æ‚Q•ªûC 101 (1997).
2-19) ’†“cr—²C²í•@Œ³C‹{‰º@“NC¬¼@Œ[Cu³•û»ƒŠƒ]ƒ`[ƒ€‚̬’·‰ß’ö‚É‚¨‚¯‚é•sƒ•¨Œø‰ÊvC‘æ 28 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 24, 22 (1997) j .
2-20) ²í•@Œ³C‹g“cŠG—¢ŽqC’†“cr—²C‹{‰º@“NC¬¼@Œ[CV‘ºM—YCuƒtƒFƒŠƒ`ƒ“Œ‹»‚̃‚ƒ‹ƒtƒHƒhƒ[ƒ€vC‘æ 28 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 24, 25 (1997) j .
2-21) –ö’JLˆê˜YC²í•@Œ³C‹{‰º@“NC’†“cr—²C¬¼@Œ[C“n•Ó˜a—YCuƒjƒƒgƒŠ—‘”’ƒŠƒ]ƒ`[ƒ€‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥ê‚̉e‹¿vC‘æ 28 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 24, 39 (1997) j .
2-22) ’†“cr—²C‹{‰º@“NC²í•@Œ³C¬¼@Œ[CuƒŠƒ]ƒ`[ƒ€Œ‹»•\–Êã‚É‚¨‚¯‚é•sƒ•¨‹z’…‰ß’ö‚Ì AFM ŠÏŽ@vC“ú–{•¨—Šw‰ï 1997 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 89 (1997).
2-23) ŒIŒ´˜a’jC‹{‰º@“NC²í•@Œ³C’†“cr—²C¬¼@Œ[C‘åê“N•FC‘å–ؘa•vCuƒŠƒ]ƒ`[ƒ€Œ‹»‚Ö‚Ì•sƒ•¨Žæ‚螂ݗʂƬ’·ðŒ‚Ì‘ŠŠÖvC“ú–{•¨—Šw‰ï 1997 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 89 (1997).
2-24) ‰i—˜—R‹IŽqC²í•@Œ³C—é–Ø—Ç®C‹{‰º@“NC’†“cr—²C¬¼@Œ[Cu‚ˆ³‰º‚É‚¨‚¯‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»ŽüˆÍ‚Ì”Z“xêŠÏŽ@vC“ú–{•¨—Šw‰ï 1997 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 89 (1997).
2- 25) ²í•@Œ³C–ö’JLˆê˜YC¬¼@Œ[C“n•Ó˜a—YC–{‰ÍŒõ”ŽCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥êŒø‰ÊvC‘æ‚P‰ñVŽ¥‹C‰ÈŠwƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|W (Proceedings of the First Symposium on New Magnetic Science) C 289-295 (1997).
2-26) ‹{‰º@“NCŒIŒ´˜a’jC’·’Jì˜aGC²í•@Œ³C’†“cr—²C Durbin C¬¼@Œ[Cu¬’·‚·‚錋»‚ªì‚é”Z“xê‚Ì”÷¬d—͉º‚Å‚Ì‹““®vC‘æ 53 ‰ñ“ú–{•¨—Šw‰ï”N‰ï—vŽ|WC‘æ‚Q•ªûC 90 (1998).
2-27) ŒIŒ´˜a’jC‹{‰º@“NC²í•@Œ³C’†“cr—²C¬¼@Œ[C‘åê“N•FC‘å–ؘa•vCuƒŠƒ]ƒ`[ƒ€Œ‹»‚Ö‚Ì•sƒ•¨Žæ‚螂݃ƒJƒjƒYƒ€vC‘æ 29 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 25, A90 (1998) j .
2-28) ²í•@Œ³C‰i—˜—R‹IŽqC—é–Ø—Ç®C Stephen D. Durbin C‹{‰º@“NC’†“cr—²C¬¼@Œ[CuƒŠƒ]ƒ`[ƒ€ŽÎ•û»Œ‹»‚Ì—n‰ð“x‚Æ‚»‚̈³—͈ˑ¶«vC‘æ 29 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 25, A91 (1998) j .
2-29) ‹{‰º@“NCŒIŒ´˜a’jC’·’JìC²í•@Œ³C’†“cr—²C Stepehn D. Durbin C¬¼@Œ[CuŒ‹»‚ª‚‚‚é—n‰t”Z“xê‚Ì”÷¬d—͉º‚Å‚Ì‹““®vC‘æ 29 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 25, A147 (1998) j .
2-30) •Ä“ckˆê˜YC’Ë–{Ÿ’jC²“¡‹v•vC¼‰ª—L‹@C²í•@Œ³CuƒIƒ{ƒAƒ‹ƒuƒ~ƒ“Œ‹»‚Ì—ÕŠC‰ß–O˜a“x‚ð—˜—p‚µ‚½—n‰ð“x‘ª’èvC‘æ 29 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 25, A156 (1998) j .
2-31) ‰i—˜—R‹IŽqC²í•@Œ³C—é–Ø—Ç®C Stephen D. Durbin C‹{‰º@“NC’†“cr—²C¬¼@Œ[Cu‚ˆ³—͉º‚ł̃Šƒ]ƒ`[ƒ€Œ‹»‚Ì‘½Œ`‚Æ—n‰ð“xvC“ú–{•¨—Šw‰ï 1998 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 97 (1998).
2-32) ’†“cr—²C²í•@Œ³C‹{‰º@“NC Stephen D. Durbin C¬¼@Œ[CuƒŠƒ]ƒ`[ƒ€‚ÌŒ‹»¬’·‚É‚¨‚¯‚é•sƒ•¨Œø‰ÊvC“ú–{•¨—Šw‰ï 1998 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚Q•ªûC 98 (1998).
2- 33) –ö’JLˆê˜YC²í•@Œ³C Stephen D. Durbin C‹{‰º@“NC¬¼@Œ[C’†“ˆˆê—YC“n•Ó˜a—YC–{‰ÍŒõ”ŽCuƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‘¬“x‚É‹y‚Ú‚·Ž¥‹CŒø‰ÊvC‘æ‚Q‰ñVŽ¥‹C‰ÈŠwƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|W (Proceedings of the Second Symposium on New Magnetic Science) C (1999).
2-34) –ö’JLˆê˜YC²í•@Œ³C Stephen D. Durbin C‹{‰º@“NC’†“ˆˆê—YC“n•Ó˜a—YC–{‰ÍŒõ”ŽC¬¼@Œ[CuŽ¥ê‰º‚ł̃^ƒ“ƒpƒNŽ¿Œ‹»¬’·‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC‘æ 54 ‰ñ“ú–{•¨—Šw‰ï”N‰ï—vŽ|WC‘æ‚Q•ªûC 97 (1999).
2-35) –ö’JLˆê˜YC²í•@Œ³C Stephen D. Durbin C‹{‰º@“NC‰FŽ¡Œ´“OC’†“ˆˆê—YC“n•Ó˜a—YC–{‰ÍŒõ”ŽCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥êŒø‰ÊvC‘æ 30 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 26, 104 (1999) j .
2-36) ²“¡F—YCŸ–î—Ç—YC²í•@Œ³C¼‰Y—ÇŽ÷Cu‹Ž¥ê‚É‚¨‚¯‚éƒjƒƒgƒŠ—‘”’ƒŠƒ]ƒ`[ƒ€‚ÌŒ‹»\‘¢vC‘æ 30 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 26, 105 (1999) j .
2-37) ²í•@Œ³C‰i—˜—R‹IŽqC Stephen D. Durbin C‹{‰º@“NC‰FŽ¡Œ´“OC’†“ˆˆê—YCu‚ˆ³—͉º‚ł̃Šƒ]ƒ`[ƒ€ŽÎ•û»‚̬’·ƒJƒCƒlƒeƒBƒNƒXvC‘æ 30 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 26, 107 (1999) j .
2-38) ²í•@Œ³C‹{‰º@“NC Stephen D. Durbin C‰FŽ¡Œ´“OC’†“ˆˆê—YC–{‰ÍŒõ”ŽCu NaCl …—n‰t‚̑Η¬‚É‹y‚Ú‚·Ž¥êŒø‰ÊvC“ú–{•¨—Šw‰ï 1999 ”NH‚Ì•ª‰È‰ï—vŽ|WC‘æ‚S•ªûC 810 (1999).
2-39) –{“¯G¬C²í•@Œ³C‹{‰º@“NC Stephen D. Durbin C’†“ˆˆê—YC¼‰Y—ÇŽ÷CuƒŠƒ]ƒ`[ƒ€’PŽÎ»ŒnŒ‹»‚Ì•ªŽqŠÔÚG‚ÆŒ‹»¬’·vC“ú–{•¨—Šw‰ï 2000 ”Nt‚Ì•ª‰È‰ï—vŽ|WC‘æ‚S•ªûC 767 (2000).
2-40) ²í•@Œ³C‹{‰º@“NC‰FŽ¡Œ´“OC‰F²”ü“¿—²C’†“ˆˆê—YCu”÷¬d—͉º‚Å‚Ì…‚̃}ƒ‰ƒ“ƒSƒj—¬‚Ì‚»‚ÌêŠÏŽ@vC‘æ 31 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 27, 51 (2000) j .
2-41) –{“¯G¬C²í•@Œ³C‹{‰º@“NC Stephen D. Stephen D. Durbin C’†“ˆˆê—YC¼‰Y—ÇŽ÷CuƒŠƒ]ƒ`[ƒ€’PŽÎ»ŒnŒ‹»‚Ì AFM ŠÏŽ@C‘æ 31 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 27, 113 (2000) j .
2-42) ²“¡F—YCŽR“c—I‰îC¼žŠT–çC“c’†M•vC²í•@Œ³C’†“ˆˆê—YCŒÜ\—’‹³”VC“c’†‰ë•FC¼‰Y—ÇŽ÷Cu‹Ž¥ê‰º‚Å‚Ì’`”’Ž¿Œ‹»‰»‚É‚æ‚é‰ñÜ•ª‰ð”\‚ÌŒüãvC‘æ 31 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 27, 114 (2000) j .
2-43) ŽR–{“V—CC²“¡´—²C¼‰Y—ÇŽ÷C²í•@Œ³Cu Taka-Amylase A (TAA) Œ‹»‚Ì—n‰ð“x‚ƃ‚ƒ‹ƒtƒHƒhƒ[ƒ€vC‘æ 31 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 27, 115 (2000) j .
2- 44) ²í•@Œ³C–ö’JLˆê˜YC Stephen D. Durbin C‹{‰º@“NC‰FŽ¡Œ´@“OC‰F²”ü“¿—²C’†“ˆˆê—YC–{‰ÍŒõ”ŽCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥êŒø‰ÊvC‘æ 31 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 27, 131-132 (2000) jyInvited; µ‘Òu‰‰z .
2-45) ²í•@Œ³C‰FŽ¡Œ´“OC‰äÈK’·C‰F²”ü“¿—²C‹{‰º@“NC’†“ˆˆê—YCuŒ‹» - —n‰tŠE–Ê‚É‚¨‚¯‚éˆÊ’u‚Ɖ·“x‚Ì‚»‚Ìꃂƒjƒ^ƒŠƒ“ƒOƒVƒXƒeƒ€‚ÌŠJ”vC 2000 ”NH‹G‘æ 61 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2000 ”N 9 ŒŽD
2-46) ²“¡F—YCŽR“c—I‰îC¼žŠT–çC–x@“NÆCL£—‹‘¾C“c’†M•vC²í•@Œ³C’†“ˆˆê—YCŒÜ\—’‹³”VC“c’†‰ë•FC¼‰Y—ÇŽ÷Cu‹Ž¥ê‚É‚æ‚éŽÎ•û»ŒnƒŠƒ]ƒ`[ƒ€Œ‹»‚Ì‚•iŽ¿‰»‚Æ\‘¢vC“ú–{Œ‹»Šw‰ïC 2000 ”N 11 ŒŽD
2-47) ²í•@Œ³C‹{‰º@“NC‰FŽ¡Œ´“OC“¡Œ´qŽOC‰F²”ü“¿—²C’†“ˆˆê—YCuƒ}ƒ‰ƒ“ƒSƒj‘Η¬‚̃^ƒ“ƒpƒNŽ¿”Z“x‚¨‚æ‚уKƒX”Z“xˆË‘¶«‚ɂ‚¢‚ÄvC“ú–{•¨—Šw‰ï 2001 ”Nt‹G‘æ 56 ‰ñ”N‰ïC 2001 ”N‚RŒŽD
2- 48) —é–Ø—Ç®C²í•@Œ³C Kalevi Visuri ‚C“c‘ºŸOC’†“ˆˆê—YCu‰Áˆ³‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‘£iŒø‰ÊvC‘æ 12 ‰ñ¶•¨ŠÖ˜A‚ˆ³Œ¤‹†‰ïƒVƒ“ƒ|ƒWƒEƒ€u¶•¨‰ÈŠwEH•i‰ÈŠw‚Ö‚Ì‚ˆ³—˜—pvC 2001 ”N‚XŒŽD
2-49) ²í•@Œ³C¼ˆä‘ñ˜YC‹{‰º@“NC–{“¯G¬C–ö’JLˆê˜YCŠŒ´Œ˜‘¾˜YC¡ˆäN•FCò@–M‰pC‰FŽ¡Œ´“OC“¡Œ´qŽOC‰F²”ü“¿—²C’†“ˆˆê—YCu”’F X üƒgƒ|ƒOƒ‰ƒt–@‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿’PŒ‹»‚Ì•iŽ¿‚Ì•]‰¿vC“ú–{•¨—Šw‰ï 2001 ”NH‚Ì•ª‰È‰ï 2001 ”N‚XŒŽFu‰‰ŠT—vWC‘æ‚S•ªûC 719 (2001) D
2-50) –ö’JLˆê˜YCò@–M‰pC¡ˆäN•FCŠŒ´Œ˜‘¾˜YC–{“¯G¬C¼ˆä‘ñ˜YC²í•@Œ³C’†“ˆˆê—YCX@“ÄŽjCˆäã“N•vCu para-nitroaniline Œ‹»‚Ì”’Fƒ‰ƒEƒGƒgƒ|ƒOƒ‰ƒtŠÏŽ@ vC“ú–{•¨—Šw‰ï 2001 ”NH‚Ì•ª‰È‰ï 2001 ”N‚XŒŽFu‰‰ŠT—vWC‘æ‚S•ªûC 718 (2001) D
2- 51) ²í•@Œ³C’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»FŒ‹»¬’·Šw‚ª‚Ç‚±‚Ü‚Å‚¨–ð‚É—§‚Ä‚é‚Ì‚©vC“ú–{¶•¨•¨—Šw‰ï‘æ 39 ‰ñ”N‰ïCƒVƒ“ƒ|ƒWƒEƒ€u’`”’Ž¿Œ‹»Šw‚Ì–³ŒÀ‚̉”\«‚ÉŒü‚¯‚ÄvC 2001 ”N 10 ŒŽDyInvited; µ‘Òu‰‰z
2-52) ²í•@Œ³C‹{‰º@“NC‰FŽ¡Œ´“OC“¡Œ´qŽOC‰F²”ü“¿—²C’†“ˆˆê—YCu”÷¬d—͉º‚ł̃^ƒ“ƒpƒNŽ¿…—n‰t’†‚̃}ƒ‰ƒ“ƒSƒj‘Η¬‚Ì‚»‚ÌêŠÏŽ@vC‘æ 17 ‰ñƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ïC 2001 ”N 10 ŒŽD
2-53) ¼ˆä‘ñ˜YC²í•@Œ³C²“¡F—YC‰FŽ¡Œ´“OC“¡Œ´qŽOC‰F²”ü“¿—²C’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·‚É‚¨‚¯‚é•sƒ•¨Œø‰ÊvC‘æ 32 ‰ñŒ‹»¬’·‘“à‰ï‹c—vŽ|Wi“ú–{Œ‹»¬’·Šw‰ïŽ , 29, 71 (2002) j
2-54) ’†—¢Ÿ–FC–{ŠÔ’qŽqC²í•@Œ³CèÛ@’B–çCu“ñŒõ‘©Š±ÂŒv‚ƃ~ƒNƒ“§ÍƒZƒ‹‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»‚Ì—n‰ð“x‘ª’è‚ÆŒ‹»¬’·‚̧ŒävC¶•¨•¨—Šw‰ï”N‰ïC 2002 ”N 9 ŒŽD
2-55) ¼ˆä‘ñ˜YA²í•@Œ³A‰FŽ¡Œ´“OA“¡Œ´qŽOA‰F²”ü“¿—²A’†“ˆˆê—YCuŒ‹»‰»—n‰t’†‚̃ŠƒAƒ‹ƒ^ƒCƒ€Eƒ^ƒ“ƒpƒNŽ¿”Z“x‘ª’èvC‘æ 33 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2003 ”N 7 ŒŽC‘åã‘åŠw
2-56) ’Ë–{Ÿ’jC–îˆä—¢ŽÀC²í•@Œ³Cu‚•ª‰ðŒõŠwŒn‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–ʃpƒ^[ƒ“‚Ƭ’·Œ‡Š×‚ÌŠÏŽ@vC‘æ 33 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2003 ”N 7 ŒŽC‘åã‘åŠw
2-57) ²í•@Œ³C¼ˆä‘ñ˜YC‰ª“c‰ëŽjC”óŒûG’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·‚É‹y‚Ú‚·ŠOêŒø‰ÊF•\–ÊŽæ‚èž‚Ý‘f‰ß’ö‚Ì‚P•ªŽqƒŒƒxƒ‹‚»‚ÌêŠÏŽ@‚ÆŠiŽqŒ‡Š×”¶ƒƒJƒjƒYƒ€‚̉ð–¾vCƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ïC 10 ŒŽ 23 “úC 2003 ”NCɪD
2- 58) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì•ªŽqƒŒƒxƒ‹EƒŠƒAƒ‹ƒ^ƒCƒ€‚»‚ÌêŠÏŽ@vC“ú–{•¨—Šw‰ï‘æ 59 ‰ñ”NŽŸ‘å‰ïCƒVƒ“ƒ|ƒWƒEƒ€uƒoƒCƒIƒNƒŠƒXƒ^ƒŠƒ[[ƒVƒ‡ƒ“C\‘¢ƒQƒmƒ€‰ÈŠwCƒoƒCƒIƒCƒ“ƒtƒHƒ}ƒeƒBƒNƒX`‚»‚Ì‚Rd“_‚ÉoŒ»‚·‚éV phase ‚Ì”Œ©`vC 2004 ”N‚RŒŽC‹ãB‘åŠwDyInvited; µ‘Òu‰‰z
2- 59) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC“n•Ó•üMC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–Ê‚Å‚Ì’PˆÊ¬’·ƒXƒeƒbƒv‚¨‚æ‚Ñ•\–ÊŠgŽU•ªŽq‚Ì‚»‚ÌêŠÏŽ@F‹‘啪Žq‚ð—˜—p‚·‚邱‚ƂŬ’·‘f‰ß’ö‚𖾂炩‚É‚·‚évC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cƒoƒ‹ƒN•ª‰È‰ïƒVƒ“ƒ|ƒWƒEƒ€C 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwDyInvited; µ‘Òu‰‰z
2-60) ²í•@Œ³C¼ˆä‘ñ˜YC‰ª“c‰ëŽjC’ËŒ³Ÿ’jC’†“ˆˆê—YCuƒŒ[ƒU[‹¤Å“_”÷•ªŠ±ÂŒ°”÷–@‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–Êã‚Ì’PˆÊ¬’·ƒXƒeƒbƒv‚Ì‚»‚ÌêŠÏŽ@vC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwD
2-61) ¼ˆä‘ñ˜YC²í•@Œ³C‰ª“c‰ëŽjC¼‰Y—ÇŽ÷C“¡Œ´qŽOC‰FŽ¡Œ´“OC‰F²”ü“¿—²C’†“ˆˆê—YCuŒuŒõƒ‰ƒxƒ‹‰»ƒŠƒ]ƒ`[ƒ€‚̳•û»Œn‚¨‚æ‚юΕû»ŒnŒ‹»‚É‹y‚Ú‚·•sƒ•¨Œø‰ÊvC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwD
2-62) ‰ª“c‰ëŽjC²í•@Œ³C¼ˆä‘ñ˜YC“n•Ó•üMC”óŒûG’jC’†“ˆˆê—YCuŒ‹»•\–Ê‹ß–T‚Ń^ƒ“ƒpƒNŽ¿•ªŽq‚ªŠgŽU‚·‚é‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwD
2-63) ²í•@Œ³C Abel Moreno C’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·“à•”“dêi’¼—¬“d—¬jŒø‰ÊvC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwD
2-64) —é–Ø—Ç®C²í•@Œ³C¼‰Y—ÇŽ÷C–{“¯G¬CŸN’ët•FC‘哇•q‹vC“c‘ºŸOCuƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[‚ÌŒ‹»¬’· kinetics ‚Ì•ªŽq˜_“IlŽ@vC‘æ 34 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2004 ”N 8 ŒŽC“Œ‹ž”_H‘åŠwD
2-65) —é–Ø —Ç®C²í•@Œ³C¼‰Y —ÇŽ÷C–{“¯ G¬CŸN’ë t•FC‘哇 •q‹vC’†“ˆ ˆê—YC“c‘º ŸOCu‚ˆ³—͉º‚É‚¨‚¯‚éƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[Œ‹»‚̬’·‘£i‹@\‚ÉŠÖ‚·‚镪Žq˜_“IlŽ@vC‘æ 45 ‰ñ‚ˆ³“¢˜_‰ï , 2004 ”N 10 ŒŽD
2-66) ’Ë–{Ÿ’jC²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·ƒƒJƒjƒYƒ€‚ÆŒ‹»Œ‡Š×vC“ú–{ƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ï‘æ 20 ‰ñŠwpu‰‰‰ïi JASMAC-20 jC 2004 ”N 11 ŒŽC•ŸˆäŒ§•ŸˆäŽsƒtƒFƒjƒbƒNƒXƒvƒ‰ƒUD
2- 67) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC“n•Ó•üMC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì•ªŽqƒŒƒxƒ‹‚»‚ÌêŠÏŽ@vC‘æ 70 ‰ñ‰»ŠwHŠw‰ï”N‰ï»Í‹Zp•ª‰È‰ïu‰‰‰ïC 2005 ”N 3 ŒŽCˆ¤’mŒ§Â”N‰ïŠÙDyInvited; µ‘Òu‰‰z
2-68) ‰ª“c‰ëŽjC²í•@Œ³C¼ˆä‘ñ˜YC“n•Ó•üMC”óŒûG’jC’†“ˆˆê—YCuŒ‹»•\–Ê‹ß–T‚É‚¨‚¯‚éƒ^ƒ“ƒpƒNŽ¿•ªŽqŠgŽU‹““®‚Ì‚P•ªŽq‚»‚ÌêŠÏŽ@vC‘æ 52 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2005 ”N 3 ŒŽCé‹Ê‘åŠwDyu‰‰§—ãÜz
2-69) ²í•@Œ³C–îˆä—¢”üC’Ë–{Ÿ’jC’†“ˆ ˆê—YCu¬’·‚µ‚Ä‚¢‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»’†‚Ì“]ˆÊ‚Ì‚»‚ÌêŠÏŽ@vC‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-70) ²í•@Œ³C’Ë–{Ÿ’jC‰¡ŽR‰x˜YC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‚É‚¨‚æ‚Ú‚·—¬‚ê‚ÌŒø‰ÊvC‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-71) ‰ª“c‰ëŽjC²í•@Œ³C¼ˆä‘ñ˜YC“n•Ó•üMC”óŒûG’jC’†“ˆˆê—YCuŒ‹»•\–Ê‹ß–T‚É‚¨‚¯‚éƒ^ƒ“ƒpƒNŽ¿•ªŽq‚ÌŠgŽU’蔂̂»‚Ìꑪ’èvC‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwDyu‰‰§—ãÜz
2-72) A. Van Driessche C²í•@Œ³C F. Otalora C‰¡ŽR‰x˜YC’Ë–{Ÿ’jC’†“ˆˆê—YC "In situ measurements of the step velocity of 2D islands on {110} surfaces of tetragonal lysozyme crystals by laser confocal microscopy" C‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-73) —é–Ø—Ç®C²í•@Œ³C¼–{‰ëŒõC‰iàV@áÁC’†“ˆˆê—YC“c‘ºŸOCu‚ˆ³—͉º‚É‚¨‚¯‚éƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[Œ‹»•\–Êã‚Ì’PˆÊƒXƒeƒbƒv‚Ì‚»‚ÌêŠÏŽ@vC‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-74) ‰¡ŽR‰x˜YC²í•@Œ³C“üàVŽõ”üCŒÃì‹`ƒC’Ë–{Ÿ’jCuŽž‹óŠÔ‰æ‘œˆ—‚É‚æ‚éƒXƒeƒbƒv‘¬“x‚ÌŒŸovC‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-75) Peter Dold C¬–삦‚è‚©C’Ë–{Ÿ’jC²í•@Œ³C " Effect of supersaturation on the step bunching of Lysozyme-(110)" C‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-76) ’Ë–{Ÿ’jC—›@’´‰hC²í•@Œ³C‰¡ŽR‰x˜YCu”÷¬d—͂ł̃Šƒ]ƒ`[ƒ€Œ‹»•\–Ê‚ÌŠÏŽ@vC‘æ 35 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2005 ”N 8 ŒŽCL“‡‘åŠwD
2-77) ‰ª“c‰ëŽjC²í•@Œ³C¼ˆä‘ñ˜YC“n•Ó•üMC”óŒûG’jC’†“ˆˆê—YCuŒ‹»•\–Ê‹ß–T‚É‚¨‚¯‚éƒ^ƒ“ƒpƒNŽ¿ˆê•ªŽq‚ÌŠgŽU‹““®vCH‹G ‘æ 66 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2005 ”N 9 ŒŽC“¿“‡‘åŠwD
2-78) ì–ì‘‹±A‚‹´‘×lA²í•@Œ³CuŒÅ‘ÌŠî”Âã‚É‚¨‚¯‚éŒuŒõ•WŽ¯ƒŠƒ]ƒ`[ƒ€‚Ì 1 •ªŽqŠÏŽ@‚Æ•ªŽq“®—ÍŠwƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“vC“ú–{‹@ŠBŠw‰ï 2005 ”N“x”NŽŸ‘å‰ïA 2005 ”N 9 ŒŽA“d‹C’ÊM‘åŠwD
2-79) ‚‹´‘×lAì–ì‘‹±A²í•@Œ³CuŽ_‰»–ŒƒVƒŠƒRƒ“Šî”‚ƃŠƒ]ƒ`[ƒ€‚Ì‘ŠŒÝì—p‚ÉŠÖ‚·‚é 1 •ªŽqŠÏŽ@ŽÀŒ±‚Æ•ªŽq“®—ÍŠwƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“vC“ú–{‹@ŠBŠw‰ï‘æ 18 ‰ñŒvŽZ—ÍŠwu‰‰‰ïA 2005 ”N 11 ŒŽA’}”g‘åŠwD
2- 80) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC“n•Ó•üMC”óŒûG’jC’†“ˆˆê—YCuƒŒ[ƒU[‹¤Å“_”÷•ªŠ±ÂŒ°”÷–@‚¨‚æ‚Ñ‘S”½ŽËŒuŒõŠÏŽ@Œ°”÷–@‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC“ú–{¶•¨•¨—Šw‰ï‘å 43 ‰ñ (2005 ”N“x ) ”N‰ïC 2005 ”N 11 ŒŽCŽD–yƒRƒ“ƒxƒ“ƒVƒ‡ƒ“ƒZƒ“ƒ^[DyInvited; µ‘Òu‰‰z
2-81) P. Dold, Elena Petrova, ’Ë–{Ÿ’j, ²í•@Œ³, "Defect generation during crystal growth of lysozyme" C“ú–{ƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ï‘æ 21 ‰ñŠwpu‰‰‰ïC 2005 ”N 11 ŒŽC–kŠC“¹‘åŠwD
2- 82) ²í•@Œ³C‰ª“c‰ëŽjC Dai Guoliang C¼ˆä‘ñ˜YC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·‘f‰ß’ö‚Ì•ªŽqƒŒƒxƒ‹‚»‚ÌêŠÏŽ@F‹‘啪Žq‚ðŽg‚Á‚Ä•\–Ê‘f‰ß’ö‚ðŠÏ‚évC“ú–{•¨—Šw‰ï 2006 ”NH‹G‘å‰ïC 2006 ”NC 9 ŒŽCç—t‘åŠwDyInvited; µ‘Òu‰‰z
2-83) Dai GuoliangC²í•@Œ³C¼ˆä‘ñ˜YC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–Êã‚ւ̃^ƒ“ƒpƒNŽ¿•ªŽqu‹z’…‰ß’öv‚Ì‚P•ªŽq‚»‚ÌêŠÏŽ@C‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
2-84) A. Van DriesscheC²í•@Œ³C‹gè@òC F. Otalora C’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̃Xƒeƒbƒv¬’·‚ɉʂ½‚·•sƒ•¨‹z’…ƒTƒCƒg‚Ì–ðŠ„vC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
2-85) A. Van Driessche C²í•@Œ³C F. Otalora C’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»‚Ì 2 ŽŸŒ³ŠjŒ`¬‘¬“x‚Ì’¼Ú‘ª’è‚Æ•sƒ•¨Œø‰ÊvC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
2-86) ¬–삦‚è‚©C P. Dold C¬ò³ŽqC’Ë–{Ÿ’jC²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‚ÆŒ‡Š×Œ`¬‚ÌŠÖ˜A " ‚»‚Ìê " ŠÏŽ@vC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
2-87) ¬ò³ŽqC P. Dold C¬–삦‚è‚©C’Ë–{Ÿ’jC²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿—n‰t‚̉t - ‰t‘Š•ª—£‚ªŒ‹»¬’·‚É—^‚¦‚é‰e‹¿vC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
2-88) ŠÛŽR”ü”¿ŽqC¼‘º—Ç_C²í•@Œ³C’Ë–{Ÿ’jCuƒLƒ‰ƒ‹‚ȃAƒ~ƒmŽ_‚ª‘£i‚·‚é•û‰ð΂̃Xƒeƒbƒv‘¬“xvC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
2-89) ¬–삦‚è‚©C Peter Dold C’†“cr—²C’Ë–{Ÿ’jC²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‚ÆŒ‡Š×Œ`¬‚ÌŠÖ˜AvC“ú–{ƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ï‘è 22 ‰ñŠwpu‰‰‰ïC 2006 ”N 11 ŒŽ 30 “ú -12 ŒŽ 1 “úCŽñ“s‘åŠw“Œ‹žD
2-90) ¬ò³ŽqC Peter Dold C²í•@Œ³C’Ë–{Ÿ’jCu”÷¬d—͉º‚Å‚Ì—‘”’ƒŠƒ]ƒ`[ƒ€‚̉t - ‰t‘Š•ª—£vC“ú–{ƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ï‘è 22 ‰ñŠwpu‰‰‰ïC 2006 ”N 11 ŒŽ 30 “ú -12 ŒŽ 1 “úCŽñ“s‘åŠw“Œ‹žD
2-91) ²í•@Œ³C’†“ˆˆê—YCu‹‘啪Žqiƒ^ƒ“ƒpƒNŽ¿j‚ł݂錋»‚̬’·‘f‰ß’övC“ú–{‰»Šw‰ï—L‹@Œ‹»•”‰ï‘æ 15 ‰ñ—L‹@Œ‹»ƒVƒ“ƒ|ƒWƒEƒ€C 2006 ”N 11 ŒŽCˆ¤•Q‘åŠwDyµ‘Òu‰‰z
2-92) ²í•@Œ³CuŒÅ‰tŠE–Ê‚Å‚ÌŒ‹»¬’·‘f‰ß’ö‚ð‹‘啪Žqƒ^ƒ“ƒpƒNŽ¿‚ð—p‚¢‚ÄŠÏ‚évC‘æ38‰ñƒZƒ~ƒRƒ“ƒtƒ@ƒŒƒ“ƒXuƒiƒmƒ}ƒeƒŠƒAƒ‹‚Æ“d‹C‰»Šw‚ÌÚ“_vC2006”N12ŒŽCƒ^ƒJƒ~ƒ„—Ú—ž‹äŠyƒŠƒ][ƒgDyµ‘Òu‰‰z
2-93) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YCDai GuoliangC’Ë–{Ÿ’jC’†“ˆˆê—YCu ŒÅ‰tŠE–Ê‚Å‚ÌŒ‹»¬’·‘f‰ß’ö‚Ì‚•ª‰ðŒõŠwŠÏŽ@vC“d‹C‰»Šw‰ï‘æ74‰ñ‘å‰ï,2007 ”N 3 ŒŽC“Œ‹ž—‰È‘åŠw–ì“cƒLƒƒƒ“ƒpƒXDyµ‘Òu‰‰z
2-94) ‹gì—mŽjC‘ºˆä—Ç‘½C‹ó@—m‰îC ²í•@Œ³C×ì—zˆê˜YC‘Œ´@GC–k’J—F–çC–q@ËC™ŽR@¬CˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹CX@—E‰îC²X–ØF—FCuŒuŒõƒ‰ƒxƒ‹ƒ^ƒ“ƒpƒNŽ¿‚ð—p‚¢‚ẴtƒFƒ€ƒg•bƒŒ[ƒU[—U‹NŠj”¶ƒƒJƒjƒYƒ€‚̉ðÍvC 2007 ”NH‹G‘æ 56 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2007 ”N 9 ŒŽC–kŠC“¹H‹Æ‘åŠwD
2-95) ’Ë–{Ÿ’jC¬–삦‚è‚©C²í•@Œ³C‹gè@òC¬“‡ŒªˆêCuƒŠƒ]ƒ`[ƒ€Œ‹»‚̬’·ƒƒJƒjƒYƒ€‚ÆŠ®‘S«vC‘æ 37 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2007 ”N 11 ŒŽC–kŠC“¹‘åŠwD
2-96) ¬ò³ŽqC¬–삦‚è‚©C²í•@Œ³C’Ë–{Ÿ’jCuƒŠƒ]ƒ`[ƒ€Œ‹»‚ÌŠjŒ`¬‚É‹y‚Ú‚·ƒ_ƒCƒ}[‚̉e‹¿vC‘æ 37 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2007 ”N 11 ŒŽC–kŠC“¹‘åŠwD
2-97) ‘ºˆä—Ç‘½C‹gì—mŽjC’†“cT–çC’·’J’†mŽuC–k’J—F–çC–q@ËC™ŽR@¬C²í•@Œ³CˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹C²X–ØF—FCX@—E‰îCuƒtƒFƒ€ƒg•aƒŒ[ƒU[‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚©‚ÌŒ´—‰ð–¾Œ¤‹†vC‘æ 37 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2007 ”N 11 ŒŽC–kŠC“¹‘åŠwD
2-98) 쌴ŽõlC²í•@Œ³C‘ºˆä—Ç‘½C´…“TŽqC–kŒ´—F–çC™ŽR@¬CŽRã@ŒbCˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹C²X–ØF—FCX@—E‰îCu‹§—¬‚ꉺ‚̃^ƒ“ƒpƒNŽ¿Œ‹»•\–Êã‚Å‚Ì‚P•ªŽq‚»‚ÌêŠÏŽ@vC 2008 ”Nt‹G‘æ 55 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2008 ”N 3 ŒŽC“ú–{‘åŠwD
2-99) ²í•@Œ³C Alexander E.S. Van Driessche, Guoliang Dai, ’Ë–{Ÿ’jC’†“ˆˆê—YCuŒõŠwŒ°”÷‹Zp‚ÅŒ©‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‘f‰ß’övC 2008 ”NH‹G‘æ 69 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u—L‹@Œ‹»‚Í‚Ç‚±‚Ü‚Åi‰»‚·‚é‚©i—L‹@Œ‹»¬’·‚ÌÅV“®Œü‚ÆŒõ‹@”\‚Ì”Œ»jvC 2008 ”N 9 ŒŽC’†•”‘åŠwDyµ‘Òu‰‰z
2-100) Žè˜V—´ŒáC²í•@Œ³C‰FŽ¡Œ´“OC‰F—{P—YCuŽ_‰»•¨Þ—¿•\–Êã‚É’SŽ‚µ‚½Ž‰Ž¿“ñd–Œ“à‚Ì•ªŽqŠgŽU‹““®‚Ì‚»‚ÌêŠÏŽ@FŠî”ÂÞ—¿‚ð‘I‚΂Ȃ¢‚P•ªŽq’ÇÕ–@‚É‚æ‚é‰ðÍvC 2008 ”NH‹G‘æ 69 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2008 ”N 9 ŒŽC’†•”‘åŠwD
2-101) ²í•@Œ³C Alexander Van Driessche, Guoliang Dai, Fermin Otalora, ’Ë–{Ÿ’jC’†“ˆˆê—YCu‚•ª‰ðŒõŠwŒ°”÷–@‚ÅŒ©‚é—n‰t¬’·‰ß’övC
ƒVƒ“ƒ|ƒWƒEƒ€FŒ‹»¬’·Šî‘bE•]‰¿•ª–삨‚æ‚уoƒCƒI—L‹@ƒ}ƒeƒŠƒAƒ‹•ª–ì‚É‚¨‚¯‚éŋ߂̃gƒsƒbƒNƒX‚©‚çC‘æ 38 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2008 ”N 11 ŒŽCíЕœ‹»‹L”O‰ïŠÙCå‘äDyµ‘Òu‰‰z
2-102) 쌴ŽõlC²í•@Œ³C’†‘º^—˜ŽqC‚‹´‹`“TC–k’J—F–çCˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã‘Cˆäã‹CX—E‰îCu—n‰t—¬‚ꂪƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·ƒXƒeƒbƒv‹““®‚É—^‚¦‚é‰e‹¿vC‘æ 38 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2008 ”N 11 ŒŽCíЕœ‹»‹L”O‰ïŠÙCå‘äD
2-103) ŠÛŽR”ü”¿ŽqC’Ë–{Ÿ’jC²í•@Œ³C Peter G. Vekilov Cu¬’·‚·‚é•û‰ðΕ\–ʂł̃Lƒ‰ƒ‹‚È•ªŽq‚Ì‹““®‚Ì’¼ÚŽ‹Šo‰»‚Æ‹z’…ˆÊ’u‚Ì•]‰¿vC
ƒVƒ“ƒ|ƒWƒEƒ€FŒ‹»¬’·Šî‘bE•]‰¿•ª–삨‚æ‚уoƒCƒI—L‹@ƒ}ƒeƒŠƒAƒ‹•ª–ì‚É‚¨‚¯‚éŋ߂̃gƒsƒbƒNƒX‚©‚çC‘æ 38 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2008 ”N 11 ŒŽCíЕœ‹»‹L”O‰ïŠÙCå‘äDyµ‘Òu‰‰z
2-104) ’Ë–{Ÿ’jC²í•@Œ³C¬–삦‚è‚©C¬“‡ŒªˆêC‹kŸC¬Î^—R”üC‹gè@òC J.M. Garcia Ruiz, E. Vlieg Cu F OTON-M3 ‰q¯‚ðŽg‚Á‚½ƒŠƒ]ƒ`[ƒ€Œ‹»¬’·‘¬“x‘ª’è vC‚É–{ƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ï‘æ 23 ‰ñŠwpu‰‰‰ïC 2008 ”N 11 ŒŽC‹ž“s‘åŠw•SŽü”NŽžŒv‘ä‹L”OŠÙC‹ž“sD
2-105) ’†‘º^—˜ŽqC쌴ŽõlC‘ºˆä—Ç‘½C–k’J—F–çC‚‹´‹`“TC ²í•@Œ³C™ŽR@¬CˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹CX@—E‰îCu—n‰tŠha‚ªƒ^ƒ“ƒpƒNŽ¿Œ‹»‰»‚É—^‚¦‚é‰e‹¿vC 2009 ”Nt‹G‘æ 56 ‰ñŠÖŒW˜A‡u‰‰‰ïC 2009 ”N 3 ŒŽC’}”g‘åŠwD
2-106) Žè˜V—´ŒáC²í•@Œ³C‰FŽ¡Œ´“OC‰F—{P—YCuŽ_‰»•¨•\–Êã‚̃Tƒ|[ƒeƒBƒbƒhƒƒ“ƒuƒŒƒ““à‚Å‚Ì•ªŽqŠgŽU‹““®‚Ì‚»‚ÌêŠÏŽ@FŠî”ÂÞ—¿‚ð‘I‚΂Ȃ¢‚P•ªŽq’ÇÕ–@vC“ú–{‰»Šw‰ï‘æ 89 t‹G”N‰ïC 2009 ”N 3 ŒŽC“ú–{‘åŠw—HŠw•”‘D‹´ƒLƒƒƒ“ƒpƒXD
2-107) ²í•@Œ³Cu‚•ª‰ðŒõŠwŒ°”÷‹Zp‚ÌŠJ”‚Æ‚±‚ê‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‹@\‚Ì•ªŽqƒŒƒxƒ‹‚ł̉ð–¾vC“ú–{Œ‹»¬’·Šw‰ï‘æ26‰ñ˜_•¶ÜŽóÜ‹L”Ou‰‰C‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwDyµ‘Òu‰‰z
2-108) ŠÛŽR”ü”¿ŽqC쌴ŽõlC²í•@Œ³C’†‘º^—˜ŽqC‚‹´‹`“TC–k’J—F–çCˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹CX@—E‰îCuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·ƒƒJƒjƒYƒ€‚Ɉˑ¶‚µ‚½—n‰t—¬‚ê‚ÌŒø‰ÊvC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
2-109) ’†‘º^—˜ŽqC쌴ŽõlCŠÛŽR”ü”¿ŽqC‘ºˆä—Ç‘½CVŽR^—R”üC‚‹´‹`“TC²í•@Œ³C
™ŽR@¬CˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹CX@—E‰îCuƒ^ƒ“ƒpƒNŽ¿Œ‹»ˆç¬‚É‚¨‚¯‚é—n‰t˜a‚ÌŒø‰ÊvC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
2-110) —é–Ø—Ç®C²í•@Œ³C“c‘ºŸOCuƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[Œ‹»‚ÌŒ‹»‰»‘f‰ß’ö‚É‚¨‚¯‚銈«‰»‘ÌÏvC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
2-111) ’ƒ’|rsC²í•@Œ³C‹Tb’B•FC“¡Œ´@ŒåCÎì‘ìÆC¼–{@Ž¡CX–{K¶Cu‰·“x§Œä‚É‚æ‚éDNA‚ÌŒ‹»‰»vC‘æ39‰ñŒ‹»¬’·‘“à‰ï‹cC2009”N11ŒŽ12-14“úC–¼ŒÃ‰®‘åŠwD
2-112) Žè˜V—´ŒáC²í•@Œ³C‰FŽ¡Œ´“OC‰F—{P—YCuŒuŒõ1 •ªŽq’ÇÕ–@‚É‚æ‚éŽ_‰»•¨•\–ÊãŽxŽŽ‰Ž¿“ñd–Œ“à‚Å‚Ì•ªŽqŠgŽU‹““®‚Ì‚»‚ÌêŠÏŽ@vC‘æ29‰ñ•\–ʉȊwŠwpu‰‰‰ïC2009”N10ŒŽ27-29“úCƒ^ƒ[ƒz[ƒ‹‘D–xi“Œ‹žjD
2-113) ™ŽR@¬CœA£–¢‰ÊC–k’J—F–çC‚‹´‹`“TC²í•@Œ³CŠÛŽR”ü”¿ŽqCˆÀ’BGºC‚–ì˜a•¶C‘ºã@‘CX@—E‰îCˆäã@‹C¼‘º_—RCuŒÅ‘Š’†ˆç¬‹Zp‚É‚æ‚é’´‚•ª‰ð”\ƒ^ƒ“ƒpƒNŽ¿Œ‹»‚Ì‘n¬vC“ú–{Œ‹»Šw‰ï2009”N”N‰ïC2009”N12ŒŽ5-6“úCŠÖ¼Šw‰@‘åŠw¼‹{ãƒPŒ´ƒLƒƒƒ“ƒpƒXi•ºŒÉjD
2-114) ŠÛŽR”ü”¿ŽqC쌴ŽõlC’†‘º^—˜ŽqC²í•@Œ³C‚‹´‹`“TC–k’J—F–çC™ŽR@¬CˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹CX@—E‰îCu—n‰tŠha‚É‚æ‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚•iŽ¿‰»‚̃ƒJƒjƒYƒ€‰ð–¾vC“ú–{Œ‹»Šw‰ï2009”N”N‰ïC2009”N12ŒŽ5-6“úCŠÖ¼Šw‰@‘åŠw¼‹{ãƒPŒ´ƒLƒƒƒ“ƒpƒXi•ºŒÉjD
2-115) Žè˜V—´ŒáC²í•@Œ³C‰FŽ¡Œ´“OC‰F—{P—YCuŽ‰Ž¿“ñd–Œ“à‚ÌŠK‘w“I‚È•ªŽqŠgŽU‹““®‚»‚ÌêŠÏŽ@‚Ì‚½‚ß‚ÌŒuŒõŒ°”÷‹¾vC‘æ57‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC2010”N3ŒŽ17-20“úC“ŒŠC‘åŠwÓìƒLƒƒƒ“ƒpƒXD
2-116) Dai GuoliangC²í•@Œ³C²“¡³‰pC‰¡ŽR‰x˜YCŒÃì‹`ƒCuƒXƒeƒbƒv‘Oi‘¬“x‚̃XƒeƒbƒvŠÔŠuˆË‘¶«FƒŠƒ]ƒ`[ƒ€’PŽÎ»ŒnŒ‹»ã‚Å‚Ì‚»‚Ìꑪ’èvC“ú–{•¨—Šw‰ï2010”NH‹G‘å‰ïC2010”N9ŒŽ23-26“úC‘åã•{—§‘åŠw’†•Sã’¹ƒLƒƒƒ“ƒpƒXD
2-117) Žè˜V—´ŒáC²í•@Œ³C‰FŽ¡Œ´“OC‰F—{P—YCuŽxŽŽ‰Ž¿“ñd–Œ“à‚Å‚Ì”÷¬\‘¢‚ÌŒ`¬‚Æ•ªŽqŠgŽU‹““®‚ւ̉e‹¿vC‘æ48‰ñ“ú–{¶•¨•¨—Šw‰ï”N‰ïC2010”N9ŒŽ20-22“úC“Œ–k‘åŠwì“àƒLƒƒƒ“ƒpƒXD
2-118) ™ŽR@¬CœA£–¢‰ÊC´…“TŽqC²í•@Œ³CŠÛŽR”ü”¿ŽqCˆÀ’BGºC‚–ì˜a•¶C‘ºã@‘Cˆäã@‹CX@—E‰îC¼‘º_—RCuƒnƒCƒhƒƒQƒ‹‚ð—˜—p‚µ‚½ŒÅ‘Š’†ƒ^ƒ“ƒpƒNŽ¿Œ‹»‰»‹Zp‚ÌŠJ”‚Æ‚»‚̉ž—pvC“ú–{”_Œ|‰»Šw‰ï•½¬22”N“xŠÖ¼Žx•”‘å‰ïC2010”N10ŒŽ2-3“úC‹ß‹E‘åŠwD
2-119) “¡Œ´‹M‹vC—é–Ø—Ç®C²í•@Œ³C–ö’JLˆê˜YC“c‘ºŸOCuƒŠƒ]ƒ`[ƒ€³•û»ŒnŒ‹»‚̃Xƒeƒbƒv‘Oi‘¬“x‚É‹y‚Ú‚·ˆ³—ÍŒø‰ÊvC‘æ3‰ñ‰»ŠwHŠw‚RŽx•”‡“¯“¿“‡‘å‰ïC2010”N10ŒŽ23-24“úC“¿“‡‘åŠwD
2-120) Žè˜V—´ŒáC²í•@Œ³C‰FŽ¡Œ´“OC‰F—{P—YCu•\–ÊŒ´ŽqƒXƒP[ƒ‹\‘¢‚ª—U‹N‚·‚éŽxŽ•½–ÊŽ‰Ž¿“ñd–Œ“à‚̈ÙíŠgŽUvC‘æ30‰ñ•\–ʉȊwŠwpu‰‰‰ïC2010”N11ŒŽ4-6“úC‘åã‘åŠwD
2-121) ŠÛŽR”ü”¿ŽqC’†‘º^—˜ŽqCÖ“¡@—@C쌴ŽõlC²í•@Œ³C‚‹´‹`“TC–k’J—F–çC
™ŽR@¬CˆÀ’BGºC‚–ì˜a•¶C¼‘º_—RC‘ºã@‘Cˆäã@‹CX@—E‰îCu…—n«‚¨‚æ‚Ñ–Œƒ^ƒ“ƒpƒNŽ¿Œ‹»‚ÌŒ‡Š×–§“x‚É‹y‚Ú‚·—n‰tŠhaŒø‰Ê‚ÌŒø‰ÊvC“ú–{Œ‹»Šw‰ï•½¬22”N“x”N‰ïC2010”N12ŒŽ3-5“úC‘åã‘åŠwD
2-122) ™ŽR@¬CœA£–¢‰ÊCŠÛŽR”ü”¿ŽqC²í•@Œ³C‘ºˆä—Ç‘½CˆÀ’BGºC‚–ì˜a•¶C‘ºã@‘Cˆäã@‹CX@—E‰îC¼‘º_—RCuƒAƒKƒ[ƒXƒQƒ‹‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»‰»‹Zp‚̔ėp«‚ÌŒŸ“¢vC“ú–{Œ‹»Šw‰ï•½¬22”N“x”N‰ïC2010”N12ŒŽ3-5“úC‘åã‘åŠwD
2-123) ²í•@Œ³CDai GuoliangCŒÃì‹`ƒCu‚•ª‰ðŒõŠwŒ°”÷–@‚ÅŒ©‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‰ß’öF—nŽ¿•ªŽq‚Ì‹z’…‘f‰ß’övC—̈æ‚XƒVƒ“ƒ|ƒWƒEƒ€F‹‘啪Žq`ƒTƒuƒ~ƒNƒƒ“—±Žq‚ÌŽ©ŒÈWÏC“ú–{•¨—Šw‰ï2011”NH‹G‘å‰ïC 2011”N9ŒŽ21-24“úC•xŽR‘åŠwDyµ‘Òu‰‰z
2-124) —é–Ø—Ç®C²í•@Œ³C“¡Œ´‹M‹vCŒÃì‹`ƒCuƒ|ƒŠƒXƒ`ƒŒƒ“—±Žq…•ªŽU‰t‚̈ê•ûŒü“€Œ‹ƒvƒƒZƒX‚É‚¨‚¯‚éƒRƒƒCƒhŒ‹»‰»‚¨‚æ‚Ñ•s‰Â‹t‹ÃWvC“ú–{•¨—Šw‰ï2011”NH‹G‘å‰ï, 2011”N9ŒŽ21-24“úC•xŽR‘åŠwD
2-125) “¡Œ´‹M‹vC—é–Ø—Ç®C²í•@Œ³C–ö’JLˆê˜YC“c‘ºŸOCu‚ˆ³—͉º‚É‚¨‚¯‚éƒjƒƒgƒŠ—‘”’ƒŠƒ]ƒ`[ƒ€³•û»ŒnŒ‹»‚̃Xƒeƒbƒv‘Oi‘¬“xvC“ú–{•¨—Šw‰ï2011”NH‹G‘å‰ï, 2011”N9ŒŽ21-24“úC•xŽR‘åŠwD
2-126) “¡Œ´‹M‹vC—é–Ø—Ç®C²í•@Œ³C–ö’JLˆê˜YC“c‘ºŸOCuƒjƒƒgƒŠ—‘”’ƒŠƒ]ƒ`[ƒ€³•û»ŒnŒ‹»‚Ì{110}–Êã‚̃Xƒeƒbƒv‘Oi‘¬“x‚É‹y‚Ú‚·ˆ³—ÍŒø‰ÊvC‘æ41‰ñŒ‹»¬’·‘“à‰ï‹c, 2011”N11ŒŽ3-5“úC‚‚‚Αۉï‹cêD
2-127) ’Ë–{Ÿ’jCŽRè’q–çC”EŒ’‘¾˜YCŽO‰Y‹ÏC–Ø‘º—E‹CC‹gèòC²í•@Œ³Cuh‚«‚Ú‚¤hŽÀŒ±‚Å‚¨‚±‚È‚¤Œ‹»¬’·h‚»‚ÌêhŠÏŽ@ŽÀŒ±‚Ì–Ú“I‚Æ€”õó‹µvCƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ïC2011”N11ŒŽ28-29“úCêŠD
2-128) ’·“ˆ@Œ•Cˆ¢•”^”VCX“c´ŽOC‘å“c¹OC•²ì—Ç•½C²í•@Œ³CŒÃì‹`ƒCu”ñÚGŒ´ŽqŠÔ—ÍŒ°”÷‹¾‚É‚æ‚錴ŽqE•ªŽqƒŒƒxƒ‹‚Å‚Ì—n‰t¬’·ŠÏŽ@vC‘æ42‰ñŒ‹»¬’·‘“à‰ï‹cC2012”N11ŒŽ9-11“úC‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXD
2-129) “¡Œ´‹M‹vC—é–Ø—Ç®C²“¡³‰pC²í•@Œ³C–ö’JLˆê˜YCŸ–ìO‘×CuƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[Œ‹»‚̬’·‰ß’ö‚É‹y‚Ú‚·ƒŠƒ]ƒ`[ƒ€‚Ì•sƒ•¨Œø‰ÊvC‘æ42‰ñŒ‹»¬’·‘“à‰ï‹cC2012”N11ŒŽ9-11“úC‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXD
2-130) ’†”ö‹±•ºC—é–Ø—Ç®C“¡Œ´‹M‹vC²“¡³‰pC²í•@Œ³CŸ–ìO‘×CuƒŠƒ]ƒ`[ƒ€Œ‹»¬’·‚É‹y‚Ú‚·ƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[‚Ì•sƒ•¨Œø‰ÊCvC‘æ42‰ñŒ‹»¬’·‘“à‰ï‹cC2012”N11ŒŽ9-11“úC‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXD
2-131) –{“¯G¬C²í•@Œ³C²“¡´—²CŒÃì‹`ƒCã–ì@‘CuƒgƒŠƒAƒVƒ‹ƒOƒŠƒZƒ[ƒ‹Œ‹»‚Ì—Z‰t¬’·‚»‚ÌêŠÏŽ@vC‘æ43‰ñŒ‹»¬’·‘“à‰ï‹cC2013”N11ŒŽ6-8“úC’·–ìŽs¶ŠUŠwKƒZƒ“ƒ^[(TOiGO“à)Diu‰‰‚Í11ŒŽ7“új
2-132) “¡Œ´‹M‹vC—é–Ø—Ç®C²“¡³‰pC²í•@Œ³CŸ–ìO‘×CuƒŠƒ]ƒ`[ƒ€‘¶Ý‰º‚ł̃Oƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[Œ‹»‚Ì•½t‰·“xvC‘æ43‰ñŒ‹»¬’·‘“à‰ï‹cC2013”N11ŒŽ6-8“úC’·–ìŽs¶ŠUŠwKƒZƒ“ƒ^[(TOiGO“à)Diu‰‰‚Í11ŒŽ7“új
2-133) ˆïér‰îCr–Ø—DŠóC”EŒ’‘¾˜YC–¾—CÆC²í•@Œ³C’Ë–{Ÿ’jC¡ˆäG–¾Cu‚Ë‚¶‚ꬒ·‚É‚¨‚¯‚é”Z“xê‚Ì‚»‚ÌêŠÏŽ@vC‘æ43‰ñŒ‹»¬’·‘“à‰ï‹cC2013”N11ŒŽ6-8“úC’·–ìŽs¶ŠUŠwKƒZƒ“ƒ^[(TOiGO“à)Diu‰‰‚Í11ŒŽ8“új
2-134) ™ŽR@¬A´…“TŽqC²í•@Œ³C‚‹´‹`“TCœA£–¢‰ÊCΓc‰pŽqCŠÛŽR”ü”¿ŽqC¼‘º_—RCˆÀ’BGºC‚–ì˜a•¶C‘ºã@‘Cˆäã@‹CX@—E‰îCuŒÅ‘ŠƒƒrƒI[ƒ‹ƒQƒ‹’†‚ň笂³‚¹‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‰»‹ZpvC‘æ43‰ñŒ‹»¬’·‘“à‰ï‹cC2013”N11ŒŽ6-8“úC’·–ìŽs¶ŠUŠwKƒZƒ“ƒ^[(TOiGO“à)Diu‰‰‚Í11ŒŽ8“új
2-135) “¡Œ´‹M‹vC—é–Ø—Ç®C²“¡³‰pC²í•@Œ³CŸ–ìONC–ö’JLˆê˜YC‰Á“¡—L‰îCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‚¨‚¯‚éˆÙŽíƒ^ƒ“ƒpƒNŽ¿‚̉e‹¿vC‘æ44‰ñŒ‹»¬’·‘“à‰ï‹cC2014”N11ŒŽ6-8“úCŠwK‰@‘åŠwDiu‰‰‚Í11ŒŽ?“új
2-136) “¡Œ´‹M‹vC—é–Ø—Ç®C²“¡³‰pC²í•@Œ³CŸ–ìONCuˆÙŽíƒ^ƒ“ƒpƒNŽ¿‘¶Ý‰º‚ÅŒ‹»‰»‚³‚¹‚½ƒOƒ‹ƒR[ƒXƒCƒ\ƒƒ‰[ƒ[Œ‹»‚̬’·‘¬“xvC‘æ45‰ñŒ‹»¬’·‘“à‰ï‹cC2015”N10ŒŽ19-21“úC–kŠC“¹‘åŠwŽD–yƒLƒƒƒ“ƒpƒXDiu‰‰‚Í10/20j
2-137) Fumitoshi Kaneko, Chihiro Katagiri, Gen Sazaki, Ken Nagashima, uAn approach to insect body lipids by FTIR spectroscopyvC“ú–{‰»Šw‰ï‘æ99t‹G”N‰ï(2019)C2019”N3ŒŽ16-19“úCb“ì‘åŠw‰ª–{ƒLƒƒƒ“ƒpƒXDiƒ|ƒXƒ^[”•\‚Í3ŒŽ??“új
2-138) ‚’Ò—z•½C²í•@Œ³C–¾—CÆC¡ˆäG–¾CuuƒƒCƒ“‚Ì—ÜvŒ»Û‚ð—˜—p‚µ‚½ƒiƒmƒLƒ…[ƒu‚Ì’P‘w”z—ñ‘Ì‚Ìì»vC“ú–{ƒZƒ‰ƒ~ƒbƒNƒX‹¦‰ï‘æ35‰ñH‹GƒVƒ“ƒ|ƒWƒEƒ€, 2022”N9ŒŽ14-16“úC“¿“‡‘åŠwíŽO“‡ƒLƒƒƒ“ƒpƒXDiƒnƒCƒuƒŠƒbƒhŠJÃj
2-139) —é–Ø—Ç®C’Ë–{Ÿ’jC²í• Œ³C“ñ‹{ ˆ¤C•ŸŽR½“ñ˜YC“‡‰ª‘¾˜YC‰iˆä³ŒbC‘]ª••FC˜a’mTŒáCrˆäN’qC‹gè òC_–ì^GC’Øˆä —DC–ö’JLˆê˜YC¼”ö”ÉŽ÷Cu‚»‚ÌêŠÏŽ@‚É‚æ‚錋»¬’·‹@\‚̉ð–¾vC“ú–{ƒZƒ‰ƒ~ƒbƒNƒX‹¦‰ï‘æ35‰ñH‹GƒVƒ“ƒ|ƒWƒEƒ€C2022”N9ŒŽ14`16“úC“¿“‡‘åŠwíŽO“‡ƒLƒƒƒ“ƒpƒXDiu‰‰‚Í9ŒŽ15“újyµ‘Òu‰‰z
‚RD—L‹@”¼“±‘Ì”––Œ‚ɂ‚¢‚Ä
3-1) “¡–ì@‘ì•ÛC²í•@Œ³C‰FŽ¡Œ´@“OC“¡Œ´@qŽOC‰F²”ü@“¿—²C‚‹´@‰pŽuC¼Œ´@‰pˆê˜YC’†“ˆ@ˆê—Yu PTCDA ‚Ì…‘fI’[ Si(111) Šî”Âã‚ւ̃Gƒsƒ^ƒLƒVƒƒƒ‹¬’·FŠî”‰·“xˆË‘¶«vC‘æ 63 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2002 ”N 9 ŒŽ 24-27 “úCVŠƒ‘åŠw
3- 2) ²í•@Œ³C“¡–ì‘ì•âC‰F²”ü“¿—²C‰FŽ¡Œ´“OC“¡Œ´qŽOC’†“ˆˆê—YCu—L‹@”¼“±‘Ì”––Œ‚̃Gƒsƒ^ƒLƒVƒƒƒ‹¬’·‚ÆŒ‹»—±‚Ì”zŒü§Œä‚ɂ‚¢‚ÄvC‘æ 50 ‰ñ‰ž—p•¨—Šw‰ïŠÖŒW˜A‡u‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u—L‹@”¼“±‘Ì”––ŒŒ‹»‰»‚ÌŒ»óF‚Ç‚±‚Ü‚Å‚í‚©‚Á‚Ä‚¢‚é‚Ì‚©vC 2003 ”N 3 ŒŽC_“Þì‘åŠw . yInvited; µ‘Òu‰‰z
3-3) –ö’JLˆê˜YC¼•û“ÂCX“ÄŽjCˆäã“N•vC²í•@Œ³C’†“ˆˆê—YCu CuPc/KCl ƒGƒsƒ^ƒLƒVƒƒƒ‹–Œ‚̈笂ɋy‚Ú‚·Ž¥êŒø‰ÊvC‘æ 50 ‰ñ‰ž—p•¨—Šw‰ïŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
3-4) ¼•û“ÂC–ö’JLˆê˜YCˆäã“N•vC²í•@Œ³C’†“ˆˆê—YCuÄ“Ý‚É‚æ‚é KCl(001) Šî”Âã‚Å‚Ì“ºƒtƒ^ƒƒVƒAƒjƒ“ÄŒ‹»‰»vC“ú–{•¨—Šw‰ï‘æ 58 ‰ñ”NŽŸ‘å‰ïC 2003 ”N 3 ŒŽC“Œ–k‘åŠw
3-5) ²í•@Œ³A“¡–ì‘ì•ÛA Jerzy T. Sadowski A‰F²”ü“¿—²A‰FŽ¡Œ´“OA“¡Œ´qŽOAŸNˆä—˜•vA’†“ˆˆê—YCu—L‹@”¼“±‘Ì PTCDA ‚Ì…‘fI’[ Si(111) •\–Êã‚ł̃wƒeƒƒGƒsƒ^ƒLƒVƒƒƒ‹\‘¢vC‘æ 33 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2003 ”N 7 ŒŽC‘åã‘åŠw
3-6) ²í•@Œ³A“¡–ì‘ì•ÛAŒSŽi@“ÖA¼•û@“ÂA‰F²”ü“¿—²A‰FŽ¡Œ´“OA“¡Œ´qŽOA’†“ˆˆê—YCuŠî”ÂŒ‹»ã‚̃Xƒeƒbƒv‚ð—p‚¢‚½—L‹@”¼“±‘Ì PTCDA ”––ŒŒ‹»—±‚Ì”zŒü§ŒävC‘æ 33 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2003 ”N 7 ŒŽC‘åã‘åŠw
3- 7) ²í•@Œ³CŒSŽi@“ÖC¼•û@“ÂC‰F²”ü“¿—²C”ˌުC‰FŽ¡Œ´“OC“¡Œ´qŽOC’†“ˆˆê—YCu—L‹@”¼“±‘Ì”––ŒŒ‹»‚Ì—±¬’·§Œä‚ɂ‚¢‚ÄvCt‹G‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u—L‹@”¼“±‘Ì”––ŒŒ‹»‰»‚ÌŒ»óF”zŒü§Œä‚Ƭ’·vC 2004 ”N 3 ŒŽC“Œ‹žH‰È‘åŠw . yInvited; µ‘Òu‰‰z
3-8) ŒSŽi@“ÖC²í•@Œ³C¼•û@“ÂC‰F²”ü“¿—²C‰FŽ¡Œ´@“OC’†“ˆˆê—YCu HOPG Šî”Âã‚Ì“ºƒtƒ^ƒƒVƒAƒjƒ“ƒGƒsƒ^ƒLƒVƒƒƒ‹”––ŒŒ‹»‚É‹y‚Ú‚·ƒAƒj[ƒŠƒ“ƒOŒø‰ÊvCt‹G‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2004 ”N 3 ŒŽC“Œ‹žH‰È‘åŠw .
3-9) ¼•û@“ÂC²í•@Œ³CŒSŽi@“ÖC”Ë@ŒÞªC‰F²”ü“¿—²C‰FŽ¡Œ´“OC“¡Œ´qŽOC’†“ˆˆê—YCu PTCDA ”––Œ‚ÌŒ`‘Ô‚É‹y‚Ú‚·Šî”Â]—L‹@”––ŒŠÔ‘ŠŒÝì—p—Í‚ÌŒø‰ÊvCt‹G‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2004 ”N 3 ŒŽC“Œ‹žH‰È‘åŠw .
3-10) ¼•û@“ÂC²í•@Œ³C Jurek T. Sadowski, Abdra Al-Mahboob C’†“ˆˆê—YC{“¡²ŽOCu H-Si(111) •\–Êã‚ł̃yƒ“ƒ^ƒZƒ“”––Œ‚̒ᑬ“dŽqŒ°”÷‹¾ŠÏŽ@vC‘æ 52 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2005 ”N 3 ŒŽCé‹Ê‘åŠwD
3-11) ¼•û@“ÂC²í•@Œ³C’|“à•q•FC{“¡²ŽOC’†“ˆˆê—YCuƒrƒVƒiƒ‹ƒXƒeƒbƒv‚ð—p‚¢‚½ƒyƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚̬’·•ûŒü‚̧ŒävC‘æ 53 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2006 ”N 3 ŒŽC•‘ H‹Æ‘åŠwD
3-12) ¼•û@“ÂC²í•@Œ³C J.T. Sadowski, A. Al-Mahboob C“¡ìˆÀmC{“¡²ŽOCŸNˆä—˜•vC’†“ˆˆê—YCu…‘fI’[ƒVƒŠƒRƒ“ (111) •\–Êã‚ł̃yƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚̃hƒƒCƒ“\‘¢¶¬‹@\vC 2006 ”NH‹G‘æ 67 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2006 ”N 8 ŒŽC—§–½ŠÙ‘åŠwD
3-13) ¼•û@“ÂC²í•@Œ³C J.T. Sadowski, A. Al-Mahboob C“¡ìˆÀmC{“¡²ŽOCŸNˆä—˜•vC’†“ˆˆê—YCu H-Si(111) •\–Êã‚Ŭ’·‚·‚éƒyƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚̒ᑬ“dŽqŒ°”÷‹¾ŠÏŽ@ I FƒGƒsƒ^ƒLƒVƒƒƒ‹\‘¢vC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
3-14) ¼•û@“ÂC²í•@Œ³C J.T. Sadowski, A. Al-Mahboob C“¡ìˆÀmC{“¡²ŽOCŸNˆä—˜•vC’†“ˆˆê—YCu H-Si(111) •\–Êã‚Ŭ’·‚·‚éƒyƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚̒ᑬ“dŽqŒ°”÷‹¾ŠÏŽ@ II FƒhƒƒCƒ“\‘¢‚̶¬‹@\vC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
3-15) ¼•û@“ÂC²í•@Œ³C’|“àr•FC‰F²”ü“¿—²C{“¡²ŽOC’†“ˆˆê—YCuƒrƒVƒiƒ‹ƒXƒeƒbƒv‚ð—p‚¢‚½ƒyƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚̬’·•ûŒü‚̧ŒävC‘æ 36 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2006 ”N 11 ŒŽC‘åã‘åŠwD
3-16) ²í•@Œ³C¼•û@“ÂC J.T. Sadowski, A. Al-Mahboob, “¡ìˆÀmC{“¡²ŽOCŸNˆä—˜—YC’†“ˆˆê—YCuƒyƒ“ƒ^ƒZƒ“”––ŒŒ‹»‚Ì‘½Œ‹»ƒhƒƒCƒ“\‘¢‚̉Ž‹‰»‚Æ‚»‚Ì”’B‹@\vC‘æ 54 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïCƒVƒ“ƒ|ƒWƒEƒ€u“ú–{ŠwpU‹»‰ï‘æ 161 ˆÏˆõ‰ïŠé‰æF—L‹@”¼“±‘Ì”––ŒŒ‹»‰»‚ÌŒ»óFƒGƒsƒ^ƒLƒVƒƒƒ‹¬’·‹@\‚ÆŒ‹»•iŽ¿vC 2007 ”N 3 ŒŽCÂŽRŠw‰@‘åŠw‘Š–ÍŒ´ƒLƒƒƒ“ƒpƒX . yµ‘Òu‰‰z
3-17) ’|“à•q•FC‰F²”ü“¿—²C²í•@Œ³C’†“ˆˆê—YCuP3HT/PCBMƒoƒ‹ƒN‚Öƒeƒ\‘¢”––Œ¬’·‚É‚¨‚¯‚錋»‰»‹ì“®—͂̉e‹¿vC 2007 ”NH‹G‘æ 56 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2007 ”N 9 ŒŽC–kŠC“¹H‹Æ‘åŠwD
3-18) –ö’JLˆê˜YC²í•@Œ³C‰F²”ü“¿—²C’†“ˆˆê—YCŒã“¡M•vCu P3HT/PCBM –Œ‚É‚¨‚¯‚錋»‰»E‹ÃW‰»‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC 2008 ”Nt‹G‘æ 55 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2008 ”N 3 ŒŽC“ú–{‘åŠwD
3-19) ˆ×’JˆÉ²‰›C–ؗmlC–©@ärC‡ŽuŒ›ˆêC²í•@Œ³C”Â’J‹ÞŒáCu•ªŽqƒŒƒxƒ‹‚Å‚Ì—L‹@”¼“±‘Ì‚ÌŒ‹»¬’·F‹¤Å“_Œ°”÷‹¾‚É‚æ‚é’P•ªŽqƒXƒeƒbƒvŠÏŽ@–@vC 2009 ”Nt‹G‘æ 56 ‰ñŠÖŒW˜A‡u‰‰‰ïC 2009 ”N 3 ŒŽC’}”g‘åŠwD
‚SD”¼“±‘ÌCŽ_‰»•¨C‹à‘®‚Ȃǂɂ‚¢‚Ä
4-1) ²í•@Œ³C‹{‰º@“NC’†“ˆˆê—YCu—Z‰t¬’·‚µ‚Ä‚¢‚錋»ŽüˆÍ‚̉·“x•ª•z‚Ì‚»‚ÌêŠÏŽ@vC‘æ 54 ‰ñ“ú–{•¨—Šw‰ï”N‰ï—vŽ|WC‘æ‚Q•ªûC 95 (1999).
4-2) ‰äÈK’·C‰F²”ü“¿—²C‰FŽ¡Œ´“OC²í•@Œ³C‹{‰º@“NC‘ºã‹`OC’†“ˆˆê—YCu SiGe ‹Ïˆê‘g¬ƒoƒ‹ƒNŒ‹»‚̬’·vC 2000 ”NH‹G‘æ 61 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2000 ”N 9 ŒŽD
4-3) ‰FŽ¡Œ´“OC²í•@Œ³C‰F²”ü“¿—²C’†“ˆˆê—YCu‚‰·—n‰t’†‚Ì‘g¬•ª•z•Ï‰»‚»‚Ìꑪ’èvC 2000 ”NH‹G‘æ 61 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2000 ”N 9 ŒŽD
4-4) ‰F²”ü“¿—²C‰äÈK’·C‰FŽ¡Œ´“OC²í•@Œ³C‹{‰º@“NC‘ºã‹`OC’†“ˆˆê—YCuƒ][ƒ“¬’·‚É‚¨‚¯‚éŒÅ‰tŠE–ʈʒu‚Ìu‚»‚ÌêŠÏŽ@v‚Æ SiGe ƒoƒ‹ƒNŒ‹»ì»‚ÖvC 2000 ”NH‹G‘æ 61 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2000 ”N 9 ŒŽD
4-5) ’†“ˆˆê—YC‰FŽ¡Œ´“OC‰F²”ü“¿—²C²í•@Œ³Cu˜c‚ÝE•\–ÊEŠE–ʃGƒlƒ‹ƒM[‚ðl—¶‚µ‚½ó‘Ô}‚ÌŒvŽZvC 2000 ”NH‹G‘æ 61 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2000 ”N 9 ŒŽD
4-6) ‰F²”ü“¿—²C‰äÈK’·C‰FŽ¡Œ´“OC²í•@Œ³C’†“ˆˆê—YCC–îƒP•”ŠìsC‹ß“¡‚ŽuC‰©@W“ñC”’–Ø–õŠ°C’£@•Û•½C£ì—EŽO˜YCŽ™‹Ê–ΕvCu‰F’ˆ—p‘¾—z“d’rÞ—¿‚ð–ÚŽw‚µ‚½ SiGe Šî”Âã‚Ì GaAs ‚Ì MBE ¬’·vC“ú–{‰ž—p•¨—Šw‰ïC 2001 ”N‚RŒŽD
4-7) ‰F²”ü“¿—²C‰äÈK’·C‰FŽ¡Œ´“OC²í•@Œ³C“¡Œ´qŽOC‘ºã‹`OC’†“ˆˆê—YCuŒÅ‰tŠE–Ê‚Ìu‚»‚ÌêŠÏŽ@v‚ð—˜—p‚µ‚½ SiGe ƒoƒ‹ƒNŒ‹»‚Ì컂ƌõŠw“Á«vC“ú–{‰ž—p•¨—Šw‰ïC 2001 ”N‚RŒŽD
4-8) ‰äÈK’·C‰F²”ü“¿—²C‰FŽ¡Œ´“OC²í•@Œ³C‘ºã‹`OC“¡Œ´qŽOC’†“ˆˆê—YCu¬’·ŠE–ʈʒu‚Ì‚»‚ÌêŠÏŽ@‹y‚Ѭ’·‰·“x§Œä‚É‚æ‚é‹Ïˆê‘g¬ SiGe ƒoƒ‹ƒNŒ‹»‚̬’·vC“ú–{‰ž—p•¨—Šw‰ïC 2001 ”N‚RŒŽD
4-9) ’†“ˆˆê—YC‰F²”ü“¿—²C‰äÈK’·C²í•@Œ³C‰FŽ¡Œ´“OC“¡Œ´qŽOC‘ºã‹`³CŽ³ŒË“‰xCu¬’·ŠE–ʈʒu‚Ì‚»‚Ì꧌ä–@‚ð—p‚¢‚½‹Ïˆê‘g¬‚Ì SiGe ƒoƒ‹ƒNŒ‹»‚̬’·vC“ú–{‹à‘®Šw‰ïC 2001 ”N‚RŒŽD
4-10) ‰FŽ¡Œ´“OC²í•@Œ³C“¡Œ´qŽOC‰F²”ü“¿—²C’†“ˆˆê—YCu‚‰·—n‰t‘g¬‚»‚Ìꑪ’è‚Æ‚»‚ê‚ð—p‚¢‚½ŠgŽUŒW”‘ª’èvC“ú–{‹à‘®Šw‰ïC 2001 ”N‚RŒŽD
4-11) _“c‰h“ñC‰FŽ¡Œ´“OC‘ºã‹`OC“¡Œ´qŽOC²í•@Œ³C‰F²”ü“¿—²C’†“ˆˆê—YCu‘¾—z“d’r—p‘½Œ‹» Si ”––Œ‚Ì—±¬’·‚É‚¨‚¯‚é—±Œa•ª•z•Ï‰»vC‰ž—p•¨—Šw‰ïC 2001 ”N 3 ŒŽCi–¾Ž¡‘åŠwj
4-12) “¡Œ´@qŽOC‚‹´@’B–çC‰FŽ¡Œ´@“OC‰F²”ü@“¿—²C²í•@Œ³C’†“ˆ@ˆê—YCŽ³ŒË@“‰xC’·’Jì@ˆêC’†“‡@ŒhŽ¡CaŒû@¯ŽOu Si ‚Ì—Z‰t¬’·‚»‚ÌêŠÏŽ@‚¨‚æ‚ÑŒ‹»•ûˆÊ‰ðÍvC“ú–{‹à‘®Šw‰ïC 2001 ”N 9 ŒŽCi‹ãBŽY‹Æ‘åŠwj
4-13) ‚‹´@’B–çC“¡Œ´@qŽOC‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC²í•@Œ³C‘ºã@‹`OC–îŒû@—T”VC¬Œ´@˜a•vCŽ³ŒË@“‰xC’†“ˆ@ˆê—Yu SiGe ‘½Œ‹»‚̋ÌőgD‚¨‚æ‚ÑŒõŠw“Á«vC“ú–{‹à‘®Šw‰ïC 2001 ”N 9 ŒŽCi‹ãBŽY‹Æ‘åŠwj
4-14) ‰F²”ü@“¿—²C‰äÈ@K’·CàV–ì@Œ›‘¾˜YC’†ì@´˜aC‰©@W“ñ@“¡Œ´@qŽOC‰FŽ¡Œ´@“OC²í•@Œ³C”’–Ø@–õŠ°C’†“ˆ@ˆê—YCu“ÆŽ©‚É컂µ‚½ Ge-rich SiGe Šî”Âã‚Ö‚Ì‹@”\«”––Œ‚Ì MBE ¬’·vC‰ž—p•¨—Šw‰ï‘æ 62 ‰ñŠwpu‰‰‰ïC 2001 ”N 9 ŒŽ 11-14 “úiˆ¤’mH‹Æ‘åŠwj
4-15) ‰F²”ü “¿—²C“¡Œ´@qŽOC‰FŽ¡Œ´@“OC²í•@Œ³C–îŒû@—T”VC’†“ˆ@ˆê—YCuƒ~ƒNƒ•ªŽU“I‘g¬•ª•z‚É‚æ‚é SiGe ‘½Œ‹»‚̃}ƒNƒ•¨«§ŒävC‰ž—p•¨—Šw‰ï‘æ 62 ‰ñŠwpu‰‰‰ïC 2001 ”N 9 ŒŽ 11-14 “úCiˆ¤’mH‹Æ‘åŠwj
4-16) ‰äÈ@K’·C‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC²í•@Œ³C‘ºã@‹`OC“¡Œ´@qŽOCŒBŠ|@Œ’‘¾˜YC’†“ˆ@ˆê—YCuŒÅ‰tŠE–ʈʒuƒtƒB[ƒhƒoƒbƒN§Œä‚É‚æ‚é SiGe ƒoƒ‹ƒNŒ‹»‚̬’·‚Æ•]‰¿vC‰ž—p•¨—Šw‰ï‘æ 62 ‰ñŠwpu‰‰‰ïC 2001 ”N 9 ŒŽ 11-14 “úiˆ¤’mH‹Æ‘åŠwj
4-17) ‰äÈ@K’·C‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC²í•@Œ³C“¡Œ´@qŽOC‘ºã@‹`OC’†“ˆ@ˆê—YCu¬’·ŠE–Ê‚Ì¢‚»‚ÌêŠÏŽ@£‚ð—˜—p‚µ‚½‘½Œ³Œn”¼“±‘̬’·‘¬“xƒtƒB[ƒhƒoƒbƒNƒVƒXƒeƒ€‚ÌŠJ”vC‰ž—p•¨—Šw‰ï‘æ 62 ‰ñŠwpu‰‰‰ïC 2001 ”N 9 ŒŽ 11-14 “úiˆ¤’mH‹Æ‘åŠwj
4-18) ‰F²”ü@“¿—²C’†“ˆ@ˆê—YCu˜c‚Ý‚ð—˜—p‚µ‚½”¼“±‘Ì‚Öƒeƒ\‘¢‚Ì“dŽq‘ѧŒä‚ÆŒ‹»¬’·vC“ú–{‹à‘®Šw‰ï 2001 ”NHŠú‘å‰ïC 2001 ”N 9 ŒŽ 22-24 “úi‹ãBŽY‹Æ‘åŠwj
4-19) “¡Œ´qŽOC‰FŽ¡Œ´“OC²í•@Œ³C‰F²”ü“¿—²C’†“ˆˆê—YCuƒtƒBƒbƒN‚Ì‘æˆê–@‘¥‚ÉŠî‚ÂV‚µ‚¢‚‰·—n‰tŠgŽUŒW”‘ª’è–@vC‘æ 17 ‰ñƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ïC 2001 ”N 10 ŒŽD
4-20) Ž³ŒË“‰xC‰ª“c@”ÉCΑò–F•vC–x“àO”VC›Œ´F¹Cˆî—tŽ•FC“¡Œ´qŽOC‰FŽ¡Œ´“OC²í•@Œ³CŠÖŒû—²ŽjC‹{‰º@“NC‰F²”ü“¿—²C’†“ˆˆê—YCu—n—Z‹à‘®ƒtƒ‰ƒbƒNƒX–@‚É‚æ‚é CrSi2 ’PŒ‹»‚Ì쬂¨‚æ‚Ñ«Ž¿vC“ú–{ƒZƒ‰ƒ~ƒbƒNƒX‹¦‰ï“Œ–kE–kŠC“¹Žx•”Œ¤‹†”•\‰ïC 2001 ”N 11 ŒŽD
4-21) ŒBŠ|Œ’‘¾˜N@‰F²”ü“¿—²C‰FŽ¡Œ´“OC²í•@Œ³C“¡Œ´qŽOC’£•Û•½C”’–Ø–õŠ°C’†“ˆˆê—YuƒAƒ‚ƒ‹ƒtƒ@ƒX‘w‚ÌÄŒ‹»‰»‚É‚æ‚é≑Ìã SiGe ‰¼‘zŠî”‚Ìì¬vC‘æ 49 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2002 ”N 3 ŒŽ 27-30 “úC“ŒŠC‘åŠw
4-22) ‰F²”ü “¿—²C“¡Œ´@qŽOC‰FŽ¡Œ´@“OC²í•@Œ³C’†“ˆ@ˆê—YCuƒ~ƒNƒ•ªŽU“I‘g¬•ª•z‚ð—L‚·‚é SiGe ‘½Œ‹»‚ð—˜—p‚µ‚½ Si/SiGe ‘¾—z“d’r‚Ì•ÏŠ·Œø—¦‚ÌŒ©Ï‚à‚èv‘æ 49 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2002 ”N 3 ŒŽ 27-30 “úC“ŒŠC‘åŠw
4-23) ‰F²”ü “¿—²C‚‹´@’B–çC“¡Œ´@qŽOC‰FŽ¡Œ´@“OC²í•@Œ³C’†“ˆ@ˆê—Yu‚Œø—¦‘¾—z“d’r‚ð–ÚŽw‚µ‚½ Si/ ‘½Œ‹» SiGe ƒwƒeƒ\‘¢‚Ì컂ƕ]‰¿vC‘æ 49 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2002 ”N 3 ŒŽ 27-30 “úC“ŒŠC‘åŠw
4-24) ‚‹´@’B–çC“¡Œ´@qŽOC‰F²”ü “¿—²C‰FŽ¡Œ´@“OC²í•@Œ³C’†“ˆ@ˆê—YCuƒ~ƒNƒ•ªŽU“I‘g¬•ª•z‚ð—L‚·‚é SiGe ‘½Œ‹»‚ÌŒõŠw“Á«vC‘æ 49 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2002 ”N 3 ŒŽ 27-30 “úC“ŒŠC‘åŠw
4-25) ‰FŽ¡Œ´@“OC²í•@Œ³C“¡Œ´@qŽOC‰F²”ü@“¿—²C’†“ˆ@ˆê—YCuŒ‹»—n‰ðEÍo‰ß’ö‚É‚¨‚¯‚釋à—n‰t’†‚Ì‘g¬•ª•zE‰·“x•ª•z“¯Žž‚»‚Ìꑪ’èvC‘æ 49 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2002 ”N 3 ŒŽ 27-30 “úC“ŒŠC‘åŠw
4-26) ‰FŽ¡Œ´@“OC_“c@‰h“ñC‘ºã@‹`OC“¡Œ´@qŽOC²í•@Œ³C‰F²”ü@“¿—²C’†“ˆ@ˆê—YCu‘½Œ‹» Si ”––Œ—±¬’·‰ß’ö‚É‚¨‚¯‚é—±Œa•ª•z•Ï‰»‚Ƭ’·ƒƒJƒjƒYƒ€vC“ú–{‹à‘®Šw‰ï 2002 ”Nt‹G‘å‰ïC 2002 ”N 3 ŒŽ 28-30 “úC“Œ‹ž—‰È‘åŠw
4-27) ‰FŽ¡Œ´“OC²í•@Œ³C“¡Œ´qŽOC‰F²”ü“¿—²C’†“ˆˆê—Y , " ‰t‘Ì‹à‘®‚É‚¨‚¯‚é—nŽ¿ŠgŽU‰ß’ö‚Ì‘g¬•ª•z•Ï‰»‚»‚Ìꑪ’è " C“ú–{‹à‘®Šw‰ïtŠúi‘æ 130 ‰ñj‘å‰ïC“Œ‹ž—‰È‘åŠw_ŠyâƒLƒƒƒ“ƒpƒXC 2002 ”N‚RŒŽ‚Q‚W“ú`‚R‚O“ú
4-28) “¡Œ´@qŽOC‚‹´@’B–çC‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC–îŒû@—T”VC‘ºã@‹`OC²í•@Œ³CŽ³ŒË@“‰xC’†“ˆ@ˆê—Yu Si-rich SiGe ‘½Œ‹»‚̋ÌőgD‹y‚ÑŒõŠw“Á« “ú–{‹à‘®Šw‰ï 2002 ”Nt‹G‘å‰ïC 2002 ”N 3 ŒŽ 28-30 “úC“Œ‹ž—‰È‘åŠw
4- 29) ’†“ˆ@ˆê—YC‰F²”ü@“¿—²C“¡Œ´@qŽOC‚‹´@’B–çC‘ºã@‹`OC‰FŽ¡Œ´@“OC²í•@Œ³CŽ³ŒË@“‰xuƒ~ƒNƒ•ªŽU“I‘g¬•ª•z‚ð—L‚·‚é SiGe ‘½Œ‹»‚̬’·‚Æ Si/SiGe ƒwƒeƒ\‘¢‚Ìì»v“ú–{‹à‘®Šw‰ï 2002 ”Nt‹G‘å‰ïCŒö•åƒVƒ“ƒ|ƒWƒEƒ€ S1 ‹ÇÝ—ÊŽq\‘¢ , S1-222002 ”N 3 ŒŽ 28-30 “úC“Œ‹ž—‰È‘åŠw
4-30) ‰FŽ¡Œ´@“OC_“c@‰h“ñC¬Œ´@˜a•vC“¡Œ´@qŽOC²í•@Œ³CŽ³ŒË@“‰xC‰F²”ü@“¿—²C’†“ˆ@ˆê—Yu LPE-Si ”––Œ‚Ì•\–ʃ‚ƒtƒHƒƒW[‚É‚¨‚¯‚鬒·‰·“x‚̉e‹¿vC‘æ 63 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2002 ”N 9 ŒŽ 24-27 “úCVŠƒ‘åŠw
4-31) ŒBŠ|@Œ’‘¾˜YC‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC²í•@Œ³C“¡Œ´@qŽOC’£@•Û•½C’†“ˆ@ˆê—Yu‹}‘¬ƒAƒj[ƒ‹‚ð—˜—p‚µ‚½â‰‘Ìã‚Ì SiGe ”––Œ‚Ìì¬vC‘æ 63 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2002 ”N 9 ŒŽ 24-27 “úCVŠƒ‘åŠw
4-32) ‰F²”ü@“¿—²C‚‹´@’B–çC“¡Œ´@qŽOC‰FŽ¡Œ´@“OC²í•@Œ³C’†“ˆ@ˆê—YuŒ°”÷ƒ‰ƒ}ƒ“•ªŒõ–@‚ð—˜—p‚µ‚½ƒ~ƒNƒ•ªŽU“I‘g¬•ª•z‚ð—L‚·‚é SiGe ‘½Œ‹»‚Ì•]‰¿vC‘æ 63 ‰ñ‰ž—p•¨—Šw‰ïŠwpu‰‰‰ïC 2002 ”N 9 ŒŽ 24-27 “úCVŠƒ‘åŠw
4-33) ‰FŽ¡Œ´ “O C‚‹´ —˜ŽŸC‰F²”ü “¿—²C–Ø‘º ‹v“¹C “¡Œ´ qŽO C²í•@Œ³C ’†“ˆ ˆê—Y Cu—±Žq•ªŽUŒ^ƒVƒŠƒRƒ“Šî•¡‡Þ—¿‚ÌŽŽì‚Æ‚»‚Ì“Á«vC“ú–{‹à‘®Šw‰ïC‘åã‘åŠwC 2002.11.2-4
4- 34 j“¡Œ´qŽOC‰FŽ¡Œ´“OC‰F²”ü“¿—²C²í•@Œ³C‰äÈK’·C‘ºã‹`OC’†“ˆˆê—YC’†“‡ŒhŽ¡C’·’JìˆêCaŒû¯ŽOu‚»‚ÌêŠÏŽ@–@‚É‚æ‚é Si ‚ÌŒ‹»¬’·‰ß’ö‚̉𖾂¨‚æ‚Ѭ»”¼“±‘̃oƒ‹ƒNŒ‹»‚̬’·v“S|‹¦‰ïE‘æ 6 ‰ñƒ„ƒ“ƒOƒTƒCƒGƒ“ƒeƒBƒXƒgƒtƒH[ƒ‰ƒ€C‘åã‘åŠwC 2002 ”N 11 ŒŽ 2 “ú
4-35) ’†“ˆ@ˆê—YC‰FŽ¡Œ´@“OC‰F²”ü@“¿—²C“¡Œ´@qŽOC²í•@Œ³CŽ³ŒË@“‰xw SiGe/Si ƒwƒeƒ\‘¢‚̬’·ƒ‚[ƒhó‘Ô}‚ÌŒvŽZxC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 000 -0-0 C 2003 ”N 3 ŒŽ ( _“Þì‘åŠw )
4-36) ‰äÈ@K’·C‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC²í•@Œ³C“¡Œ´@qŽOC‘ºã@‹`OC’†“ˆ@ˆê—YCu SiGe ƒoƒ‹ƒNŒ‹»¬’·Žž‚É‚¨‚¯‚é–Ê•ûˆÊ—h‚炬‚Ì—}§vC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-37) ŒBŠ|@Œ’‘¾˜YC‰F²”ü@“¿—²C‰FŽ¡Œ´@“OC“¡Œ´@qŽOC²í•@Œ³C’£@•Û•½C’†“ˆ@ˆê—YCu≑Ìã”––Œ SiGe Œ‹»«‚Ì”Mˆ—‘O Ge ¬’·‰·“x‚¨‚æ‚Ñ”Mˆ—‰·“xˆË‘¶«vC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-38) ‰F²”ü@“¿—²CŽs’Ø@“NC‰FŽ¡Œ´@“OC‚‹´@’B–çC“¡Œ´@qŽOC²í•@Œ³C’†“ˆ@ˆê—YCu Si ƒ}ƒgƒŠƒbƒNƒX’†‚̉ñ“]‘ȉ~‘ÌŒ^ SiGe ‚É‚¨‚¯‚é˜c‚݂ƃoƒ“ƒh\‘¢‚ւ̉e‹¿vC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-39) Arnold Alguno, Noritaka Usami, Kozo Fujiwara, Toru Ujihara, Gen Sazaki, Yasuhiro Shiraki, and Kazuo Nakajima, " Enhanced absorption performance of solar cell in the infrared regime utilizing Ge quantum dots stacked in a multi-layer structure " , ‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-40) @‰FŽ¡Œ´“OC‰F²”ü “¿—²C“¡Œ´ qŽOC²í•@Œ³C’†“ˆ ˆê—YCuƒAƒ‚ƒ‹ƒtƒ@ƒX‚©‚ç‚̌őŠ¬’·‚É‚æ‚é SiC —±Žq•ªŽUŒ^ Si Šî•¡‡Œ‹»‚Ìì»v , “ú–{‹à‘®Šw‰ïCç—t‘åŠwC 2003.3.28-30
4- 41j‰FŽ¡Œ´“OCuƒAƒ‚ƒ‹ƒtƒ@ƒX‚©‚ç‚̌őŠ¬’·‚É‚æ‚é SiC —±Žq•ªŽUŒ^ Si Šî•¡‡Œ‹»‚Ìì»v , “ú–{•¨—Šw‰ï@Œ‹»¬’·•ª‰È‰ïƒVƒ“ƒ|ƒWƒEƒ€u‰ß—â‹p‰t‘Ì‚©‚ç‚ÌŠj¶¬EŒ‹»¬’·vC“Œ–k‘åŠwC 2003.3.28
4-42j‰FŽ¡Œ´“OC¬Œ´˜a•vC“¡Œ´qŽOC²í•@Œ³C‰F²”ü“¿—²CŽ³ŒË“‰xC’†“ˆˆê—YCu‘¾—z“d’r—p LPE-Si Œ‹»‚ÌŒ‹»«•]‰¿‚Ƭ’·‰·“xˆË‘¶«vC‰ž—p•¨—Šw‰ïC_“Þì‘åŠwC 2003.3.27-30.
4-43j“¡Œ´qŽOC‚‹´’B–çC‰F²”ü“¿—²C‰FŽ¡Œ´“OC²í•@Œ³CŽ³ŒË“‰xC’†“ˆˆê—YCuˆê•ûŒü‹ÃŒÅ‚µ‚½‘¾—z“d’r—p‘g¬•ªŽUŒ^ SiGe ‘½Œ‹»‚ÌŒ‹»•ûˆÊ‰ðÍ‚¨‚æ‚Ñ‹zŽûŒW”‚Ì‘ª’èvC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-44j“¡Œ´qŽOC‚‹´’B–çC‰F²”ü“¿—²C‰FŽ¡Œ´“OC²í•@Œ³CŽ³ŒË“‰xC’†“ˆˆê—YCuˆê•ûŒü‹ÃŒÅ‚µ‚½‘¾—z“d’r—p Si ‘½Œ‹»‚ÌŒ‹»•ûˆÊ‰ðÍvCC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-45j‘å“ú•û‘PˆêC“¡Œ´qŽOC‰FŽ¡Œ´“OC‰F²”ü“¿—²C²í•@Œ³C’†“ˆˆê—YCu Si ‚Ì—Z‰t¬’·‹@\‚É‚¨‚æ‚Ú‚·‰ß—â‹p“x‚̉e‹¿vCC‘æ 50 ‰ñ‰ž—p•¨—ŠwŠÖŒW˜A‡u‰‰‰ïC 2003 ”N 3 ŒŽC_“Þì‘åŠw
4-46j“¡Œ´qŽOC‰FŽ¡Œ´“OC‰F²”ü“¿—²C²í•@Œ³C’†“ˆˆê—YCu‘½Œ‹» Si ‚Ì—Z‰t¬’·‰ß’ö‚Ì‚»‚ÌêŠÏŽ@‚¨‚æ‚ÑŒ‹»•ûˆÊ‰ðÍvC“ú–{‹à‘®Šw‰ï 2003 ”Nt‹G‘å‰ïC 2003 ”N 3 ŒŽCç—t‘åŠw
4-47) ‰FŽ¡Œ´“OC‰äÈK’·C“¡Œ´qŽOC²í•@Œ³C‰F²”ü“¿—²C’†“ˆˆê—Y , u¬’·‰ß’ö‚É‚¨‚¢‚Ķ‚¶‚é˜c‚Ý‚É‚æ‚é‘g¬“I‰ß—â‹p‚Æ‘½Œ‹»‰»vC‘æ 33 ‰ñŒ‹»¬’·‘“à‰ï‹cC 2003 ”N 7 ŒŽC‘åã‘åŠw
Other Research Meetings; Œ¤‹†‰ï”•\
1) ²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥ê‚̉e‹¿vC‘æ23‰ñŒ‹»¬’·“¢˜_‰ïC–k“’‘ò‰·òŽR‘‘—ΊÙC–kŠC“¹C7ŒŽ24-26“ú, 1997.
2) ²í•@Œ³Cuƒ}ƒCƒPƒ‹ƒ\ƒ“Œ^“ñŒõ‘©Š±ÂŒv‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»ŽüˆÍ‚Ì”Z“xêŠÏŽ@vCŒõƒVƒXƒeƒ€EƒVƒ“ƒ|ƒWƒEƒ€: ŽÀŽžŠÔˆÊ‘ŠƒVƒtƒgŠ±ÂŒv‚Æ‚»‚̉ž—pC“Œ‹žHŒ|‘åŠwC“Œ‹žC1ŒŽ10“ú,
1998.
3) ²í•@Œ³CuŒ‹»¬’·‚É‚¨‚¯‚鎥êŒø‰ÊvC’´“`“±‰ž—p‰»Œ¤‹†”•\‰ïCŠâŽè‘åŠwCŠâŽèC1ŒŽ13-14“ú, 1998.
4) ²í•@Œ³Cu“ñŒõ‘©Š±ÂŒv‚ð—p‚¢‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»ŽüˆÍ‚Ì”Z“xêŠÏŽ@vC‘æ‚P‰ñƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‹@\‰ð–¾ƒ[ƒNƒVƒ‡ƒbƒvC(à)“ú–{‰F’ˆƒtƒH[ƒ‰ƒ€C“Œ‹žC3ŒŽ26-27“ú,
1998.
5) ²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·vC”÷—±ŽqƒNƒ‰ƒXƒ^[‚Ì•¨«‚ƃ_ƒCƒiƒ~ƒNƒXC—§–½ŠÙ‘åŠwCŽ ‰êC1ŒŽ22-23“ú, 1999.
6) ²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥ê‚¨‚æ‚Ñ‚ˆ³—Í‚ÌŒø‰ÊvC‘æ‚Q‰ñƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‹@\‰ð–¾ƒ[ƒNƒVƒ‡ƒbƒvC“ú–{Œ´Žq—ÍŒ¤‹†ŠC“ŒŠC‘ºC3ŒŽ9-10“ú,
1999.
7) ²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·vC–Ñ—˜ƒTƒ}[ƒXƒN[ƒ‹'99C‰F’ˆŠJ”Ž–‹Æ’cC‚‚‚ÎC9ŒŽ2-3“ú, 1999.
8) ²í•@Œ³Cu”÷¬d—͉º‚Å‚Ì…—n‰t’†‚̃}ƒ‰ƒ“ƒSƒj‘Η¬‚Ì‚»‚ÌêŠÏŽ@Fƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·‰e‹¿‚ɂ‚¢‚ÄvC‘æ‚P‚O‰ñu”ñüŒ`”½‰ž‚Æ‹¦“¯Œ»ÛŒ¤‹†‰ïCŽRŒû‘åŠwHŠw•”C11ŒŽ18-19,
2000
9) Gen Sazaki, "In-situ obsevtion of the Marangoni convection in
protein crystallization solution under microgravity", Workshop on Protein
Crystallization and Interfacial Phenomena: Present and Future, Institute of
Low Temperature Science, Hokkaido University, Sapporo, February 5-6, 2001.
10) ²í•@Œ³CuŽ¥ê‚ð—˜—p‚µ‚½”÷¬d—͉º‚ł̃^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»vCŒö•å’n㌤‹†Œ¤‹†ƒRƒ~ƒ…ƒjƒeƒBCiàj“ú–{‰F’ˆƒtƒH[ƒ‰ƒ€C“Œ‹žC2ŒŽ13“ú,
2001.
11) ²í•@Œ³Cuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»‰»‚É‹y‚Ú‚·Ž¥êŒø‰ÊvC»Í‹Zp“Á•ÊŒ¤‹†‰ï•½¬13”N“x“Œ–k’n‹æ“¢˜_‰ïCŠâŽè‘åŠwHŠw•”C11ŒŽ19“ú, 2001.
12) ²í•@Œ³Cu”÷¬d—͉º‚ł̃}ƒ‰ƒ“ƒSƒj‘Η¬‚Ì‚»‚ÌêŠÏŽ@vC•½¬13”N“x–³d—ʃZƒ~ƒi[CƒZƒ‰ƒgƒsƒA“yŠòC11ŒŽ13“úC2002.
13) ²í•@Œ³C“¡–ì‘ì•ÛC‰F²”ü“¿—²C‰FŽ¡Œ´“OC“¡Œ´qŽOC’†“ˆˆê—YCu—L‹@”¼“±‘ÌPTCDA”––ŒŒ‹»‚Ì…‘fI’[Si(111)Šî”Âã‚ł̃Gƒsƒ^ƒLƒVƒƒƒ‹\‘¢‚Ƭ’·—lŽ®‚̉ð–¾vC—§–½ŠÙ‘åŠw—HŠwŒ¤‹†ŠƒvƒƒWƒFƒNƒgŒ¤‹†ƒVƒ“ƒ|ƒWƒEƒ€F—L‹@E¶‘Ì•¨Ž¿‚ÌŒ‹»‰»C3ŒŽ6“úC2003.
14) ²í•@Œ³C¼ˆä‘ñ˜YC”óŒûG’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–Ê‚Å‚Ìu•\–ÊŠgŽU‰ß’öv‚̃ŠƒAƒ‹ƒ^ƒCƒ€’¼Ú‚P•ªŽqŠÏŽ@vC‰F’ˆŠÂ‹«—˜—p„iƒZƒ“ƒ^[C3ŒŽ31“úC2003.
15) ²í•@Œ³C’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿‚ÌŒ‹»¬’·FŠwۉȊwŒ¤‹†ƒZƒ“ƒ^[‚ł̬‰Ê‚ɂ‚¢‚ÄvC‹à‘®Þ—¿Œ¤‹†Š‘æ105‰ñtŠúu‰‰‰ïC5ŒŽ30“úC2003.
16) ²í•@Œ³C“¡–ì‘ì•ÛCJerzy T. SadowskiC‰F²”ü“¿—²C‰FŽ¡Œ´“OC“¡Œ´qŽOC¼Œ´‰pˆê˜YCŸNˆä—˜•vC’†“ˆˆê—YCu—L‹@”¼“±‘ÌPTCDA”––ŒŒ‹»—±‚Ì”zŒü§ŒävC‹àŒ¤u‰‰‰ïuƒiƒmƒJ[ƒ{ƒ“Þ—¿‚Ì•¨«‚ƃGƒŒƒNƒgƒƒjƒNƒXC11ŒŽ13“úC2003.
17) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì’¼Ú‚»‚ÌêŠÏŽ@FŠiŽqŒ‡Š×”¶ƒƒJƒjƒYƒ€‚̉𖾂Ɍü‚¯‚ÄvCƒ^ƒ“ƒpƒNŽ¿Œ‹»•iŽ¿•]‰¿ƒVƒXƒeƒ€ŠJ”ƒTƒuƒOƒ‹[ƒv‘æ‚R‰ñ‰ï‡C11ŒŽ28“úC2003CSPring-8.
18) ²í•@Œ³C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC’Ë–{Ÿ’jC’†“ˆˆê—YCuƒ^ƒ“ƒpƒNŽ¿Œ‹»•\–Ê‚Å‚Ì’PˆÊ¬’·ƒXƒeƒbƒv‚¨‚æ‚ÑŠgŽU•ªŽq‚̃ŠƒAƒ‹ƒ^ƒCƒ€‚»‚ÌêŠÏŽ@vCŒ‹»•\–ÊEŠE–Ê‚É‚¨‚¯‚é•sƒ•¨‹““®‚ÆŒ‹»¬’·ƒJƒCƒlƒeƒBƒNƒXC–kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š‹¤“¯—˜—pŒ¤‹†W‰ïC 2 ŒŽ 28 “úC 2004D
19) ²í•@Œ³ C‰ª“c‰ëŽjC¼ˆä‘ñ˜YC”óŒûG’jC“n•Ó•üMC’Ë–{Ÿ’jC’†“ˆˆê—YCuŠiŽqŒ‡Š×”¶‹@\‚̉𖾂Ɍü‚¯‚½ƒ^ƒ“ƒpƒNŽ¿Œ‹»¬’·‘f‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vC“ú–{ŠwpU‹»‰ï‰ñÜ\‘¢¶•¨‘æ 169 ˆÏˆõ‰ï‘æ 14 ‰ñŒ¤‹†‰ïC 9 ŒŽ 26 “úC 2004 Cå‘äŽsH•Û‰·òu²Š¨vD
20) ²í•@Œ³C‘Õ@‘—ºC’Ë–{Ÿ’jC’†“ˆˆê—YCu•sƒ•¨‚Ì‹z’…‚¨‚æ‚Ñ—¬‚ê‚ÆŠiŽqŒ‡Š×”¶‹@\vCƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‘f‰ß’ö‚Æ•sŠ®‘S«Œ¤‹†”Ç WG EŒ¤‹†”•\C 1 ŒŽ 21 “ú , 2005, iàj“ú–{‰F’ˆƒtƒH[ƒ‰ƒ€D
21) ²í•@Œ³C‘Õ@‘—ºC Alexander Van DriesscheC‰ª“c‰ëŽjC’Ë–{Ÿ’jC’†“ˆˆê—YCu•sƒ•¨ƒ^ƒ“ƒpƒNŽ¿‚Ì‹z’…‹““®‚Æ•sƒ•¨Œø‰ÊvCu¬’·ƒƒJƒjƒYƒ€‚Ɉˑ¶‚·‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚ÌŠ®‘S«vŒ¤‹†‰ïC 2 ŒŽ 10-11 “ú , 2006 C“Œ–k‘åŠw .
22) ²í•@Œ³Cuˆê•ªŽqŒv‘ª‚©‚ç–¾‚ç‚©‚É‚È‚éƒ^ƒ“ƒpƒNŽ¿Œ‹»‚̬’·‘f‰ß’övC‘æ24‰ñƒ}ƒCƒNƒ‰»Šw§˜b‰ïC6ŒŽ23“úC2006C‘åã‘åŠwD
23) ²í•@Œ³CuŒ‹»•\–ʂւ̃^ƒ“ƒpƒNŽ¿•ªŽq‹z’…‰ß’ö‚Æ•s‹ÏˆêŠjŒ`¬vC•½¬18”N“x–kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š‹¤“¯—˜—pŒ¤‹†‰ïu•ªŽqŽ©ŒÈW‡‰»‰ß’ö‚̃_ƒCƒiƒ~ƒNƒXvC–kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š‹¤“¯—˜—pŒ¤‹†W‰ïC2ŒŽ23-24“ú, 2007D
24) Gen Sazaki, "A novel pircture of adsorption/desorption processes of protein molecules on a protein-solution surface recvealed by single molecule visualization, The 2nd ITT Meeting on Crystal Growth, October 21, 2007, ƒzƒeƒ‹“úq“Þ—ÇD
25) ²í•@Œ³CuŒõ‚ðŽg‚Á‚ÄŒ‹»‚ª¬’·‚·‚郃JƒjƒYƒ€‚ð—‰ð‚·‚évC‘æ 2 ‰ñ’ቷ‰ÈŠwŒ¤‹†ŠƒZƒ~ƒi[C 7 ŒŽ 1 “ú , 2007 C–kŠC“¹‘åŠwD
26) ²í•@Œ³Cu…—n‰t - Œ‹»ŠE–Ê‚Å‚Ì—nŽ¿•ªŽq‚̃_ƒCƒiƒ~ƒNƒXvC–kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š‹¤“¯—˜—pŒ¤‹†W‰ïuH 2 O ‚ð‰ÈŠw‚·‚évC 9 ŒŽ 12 “ú , 2008 ”NC–kŠC“¹‘åŠwD
27) Gen Sazaki, G. Dai, A.E.S. Van Driessche, I. Yoshizaki, T. Matsui, F. Otalora, K. Tsukamoto, K. Nakajima, "Single-molecule observation studies on a protein crystal suface", Japan-Netherlands Symposium on Crystal Growth: Theory and In-situ Measurements (JANE 2008), October 20-23, 2008, Sapporo, Japan.
28) ²í•@Œ³CSalvador ZepedaC’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu‹C‘Š¬’·‚·‚é•XŒ‹»•\–Ê‚Ì’PˆÊƒXƒeƒbƒv‚ÌŒõŠw‚»‚ÌêŠÏŽ@: In-situ optical observation of elementary steps on ice crystals grown from vaporvC•½¬21”N“x–kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š‹¤“¯—˜—pŒ¤‹†W‰ïuH2O‚ð‰ÈŠw‚·‚évC9ŒŽ10-11“úC2009”NC–kŠC“¹D
29) G. Sazaki, S. Zepeda, S. Nakatsubo, Y. Furukawa, " Direct visualization of molecular steps and quasi-liquid layers at air-ice crystal interfaces by advanced optical microscopy", Workshop on Water at Interfaces 2009, Shanghai, China, October 31-November 1, 2009.
30) ²í•@Œ³CSalvador ZepedaC’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCuŒõ‚ÅŒ©‚éጋ»•\–Ê‚Ì•\–Ê—Z‰ð‚ƃ‰ƒtƒjƒ“ƒO‰ß’övCŠwK‰@‘åŠwŒvŽZ‹@ƒZƒ“ƒ^[“Á•ÊŒ¤‹†ƒvƒƒWƒFƒNƒg@Œ‹»¬’·‚Ì”—@‘æŽl‰ñŒ¤‹†‰ï –…‚Æ•X-, 12ŒŽ25-26“ú, 2009”NC“Œ‹žD
31) ²í•@Œ³CSalvador ZepedaC’†’ØrˆêC‰¡ŽR‰x˜YCŒÃì‹`ƒCu‹ó‹C−•XŠE–Ê‚Å‚Ì’PˆÊƒXƒeƒbƒv‚Æ‹^Ž—‰t‘Ì‘w‚Ì‚»‚ÌêŒõŠwŠÏŽ@vC•½¬21”N“x–kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š‹¤“¯—˜—pŒ¤‹†W‰ïuŒ‹»¬’·FŽÀŒ±‚Æ—˜_‚ÌÅV‚Ì“WŠJvC1ŒŽ21-22“úC2010”NC–kŠC“¹D
To the top page of the project and To Dr. Gen SAZAKI's papge