"Comparative planetology based on material physics"-6.1- by S.Karasawa

Chap. 6 Formation of the asteroid belt.

　6.1 How the asteroid belt formed?

　If a planet approaches the Sun too closely, it cannot grow larger due to the Sun's gravity. If a planet is too far away from the Sun, the planet is not possible to grow greatly because the density of the interstellar material is low. The snow line has been existed near the center of the asteroid belt after the Sun began a nuclear fusion. The water (H₂O) exists as water vapor inside of the frost line, and solid of ice exists at the outside. The area near the ice-vapor boundary is the best place where the planet can grow. That is, the location of the asteroid belt is where the planet can grow rappidly.
　The ice boundary exists near the place of the asteroid Ceres (2.767au) in the center of the asteroid belt. But the area between Mars (1.524au) and Jupiter (5.204au) is a blank region of the planet.. Here, 1au is the distance between the Sun and the Earth, its value is 1.5x10¹¹m.)　Even thorgh, there are many meteorites and many asteroids in the asteroid belt., its total mass is estimated at 2.1x10²kg, which is equivalent to 1/35 of the Earth's moo.　Where did the most of interstellar material in the belt scattered? .
　It led to the idea that planet (X) in the central Ceres location of the asteroid belt became a planet larger than Jupiter, and a single explosion due to a deuterium fusion took place. That is, the debris of the core became meteorites and asteroids. Meteorites in the asteroid belt cannot be made from cosmic dust in a cold space environment. Meteorites cannot be made unless they are in a high-pressure, high-temperature environment, such as inside a celestial body. Many of the meteorites are solids released by the core of the Sun's inner fusion explosn.　It can be thought that the asteroid belt had formed by the debris of an assumed a single deuterium fusionexplosion of the assumed planet. It caused the heavy bombing at 3.8 billion years ago.

6.2 The planet that failed to become the second Sun

The speed of growth on a planet (X) is higher than Jupiter by the density of cosmic dusts the ratio of deuterium for hydrogen is higher in the position close to the center of gravity by material differentiation in the planet (X). There is a possibility that the deuterium causes a nuclear reaction under the high pressure with high temperature.
[CG was provided by Pixta] There is the report that the planet with the mass of 13 times of Jupiter can temporarily perform deuterium nuclear fusion [1].[CG was provided by Pixta]
　When the nuclear fusion of deuterium occurs at the planet (A), the core explodes owing to the reaction, and debris become meteorites and asteroids. The fine powders scattered by the explosion due to nuclear fusion in planet (A) is swept away by the solar wind, and it does not return to the original planet (A). The planet (A) loses most of its mass. Those materials were captured by the Sun and planets such as Jupiter. The explosion by the deuterium nuclear fusion in the planet (A) ends only once. Some of the debris emitted by the explosion collided were remained in the asteroid belt. Some of the shards of the exploded Planet (A) fell on the other planets. This phenomenon may be corresponded to the late meteorite heavy bombing that the planets received 3.8 billion years ago. 　

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