My Hypothesis of A New Fundamental Force for Big Bang, Supernova, Bosenova
By exegesisme
â‘© The theory of Big Bang explains our universe now we are in. However, what causes Big Bang? No explanation yet.
⑨ It may be very certain, the present four fundamental forces are very unlikely to cause Big Bang.
⑧ In study of quarks, I notice, a heavy quark can decay to light quark. I call the force, which causes a heavy quark decay, q force. The q is the first letter of the word quark, its large form Q is a symbol for heat in physics.
⑦ The q force in nature is a heat force, but not usual heat force. It is a heat force observed only in the phenomena as
Big Bang, Supernova, Bosenova, and so on.
â‘¥ In case of Bosenova, which I first develop the hypothesis to explain, a set of atoms becomes Bose-Einstein condensate in condition of very low temperature, which really is very near to absolute zero.
⑤ In the condition, the set of atoms becomes a being of wholeness. I reason, the electrons in each atom are very near to its nucleus, so, different nucleuses are very near, and strong force or nuclear force can interact between nucleuses, and make them as a being of wholeness, which calls Bose-Einstein condensate.
â‘£ Maybe some subtle interference causes the Bose-Einstein condensate at least partially breakthrough the limitation of absolute zero, and goes down of it. The broken of the absolute zero also breaks the threshold of strong force as a bind of the energy in the quarks of the Bose-Einstein condensate, then the Bosenova happens. And the mix of the electrons and the quarks may be a minor reason, which along can not cause Bosenova, evidence as the being of neutron star.
â‘¢ I reason, each generation of quarks has their own range of temperature for their stable existence. As they go beyond the range of the stable existence, they become other generations of quarks.
â‘¡ Supernova happens in this way, in tendency of contraction, quarks of low level generation absorb energy and become quarks of the high level generation, and electrons absorb energy become muons. The quarks of the high level generation are much powerful to resist farther contraction. Once the contraction is near to stop, plus some subtle interference, or stops, the phase of inflation begins, quarks of high level generation may break its bottom threshold of range, and decay into quarks of the low generation. The energy is released to cause supernova.
â‘ So do the Big Bang, which is even an event evolved quarks of such high level generations we do not know yet.
〇 The decay of a top anti-top quark event, which can be use as a model to imagine the action of q force.
https://en.wikipedia.org/wiki/Top_quark#/media/File:Top_antitop_quark_event.svgImplosion and explosion of a Bose-Einstein condensate "Bosenova"
http://www.nist.gov/public_affairs/releases/bosenova.cfm