(Fig.1) Weyl fermion, monopole are fictitious quasiparticles !
Top journals claim Big Bang and black hole gravitational effect is observed in lab crystal. ← this is a total lie !
All they did was measure how electric current changes depending on the temperature difference.
And they use unreal Weyl quasiparticle, which is not an actual particle because of its fake mass and charge.
(Fig.2) Multi-particle effect = a fake quasiparticle ?
The point is the present quantum mechanics cannot handle multi-electron atoms in condensed matter.
So they had to invent some fictitious concept such as unreal quasiparticle to explain complicated physical phenomena.
Massless Weyl fermion and monopole are both unreal quasiparticle.
They treat the whole artificial metal as if it were a single fictitious quasiparticle based on their own selfish interpretation.
For example, after illuminating some metal and measure scattered electron, they insist they found massless ( unreal ) quasiparticle ! ← nonsense.
(Fig.3) Temperature → BigBang, electron → quasiparticle ?
In this experiment, physicists deliberately misinterpret "temperature" as "gravity", and "electron" as "quasiparticle". ← nonsense.
All they did in this experiment is measure how electric current changes under thermal difference.
They misinterpret it as "they measured unreal Weyl quasiparticle current under gravitational difference" in this experiment.
Quantum mechanics is ridiculous.
(Fig.4) meaningless "analogy" between gravity and tempetature !?
The present physics is filled with fictional concpets such as extradimensions, parallel universe and big bang.
To justify these fictional concpets, they have to realize them in actual experiment in lab. Of course, it's impossible as they are.
This is why they intentionally misinterpret "temperature" as "graivty", and "electric current" as "unreal quasiparticle".
To justify wrong quantum mechanics, they need fictitious concpets in condensed matter physics. That's what is happeing now in physics.
2017/8/4 updated. Feel free to link to this site.