Quarks cannot exist outside of a hadron at temperatures less than 170 MeV
And here I thought it was because quarks were smaller than the naked eye, a microscope, or even an electron microscope could see. My bad. But how do those quarks and antiquarks come into existence without some form of, say, radiation? Could it be the split of a neutrino? Don't you think that if someone were to harness this technique, some unimaginable substance might be possible?Vesper said:No quark has ever been seen outside of a hadron or meson. This is because as the distance increases between two quarks the strong force between them gains such a potential that two new quarks come into existence, bonding with the two separate ones to form two separate quark-anti-quark pairs.
As opposed to those tiny neutron stars that weigh only a few grams, right? Seriously, though, if starships are emitting enough energy to cause spontaneous formation of a black hole, don't you think that such high temperatures might be possible?Vesper said:This is confinement (which also prevents partial charges from existing in normal conditions). There are only two possible conditions under which this is not true, temperatures above the temperature wherein Quantum Chronodynamics takes over and the center of very, very massive neutron stars (the last one being only theory, btw).
Unless you stick them together properly...but go on.Vesper said:The second one is the only type that this Yarvex could possibly be, but lets just assume you somehow managed to form up the quarks into a monoquark chain. This chain would, unfortunately, last a very short period of time, due to random motion of the particles (like any other particle).
Vesper said:As the "freeâ€
Cora said:If a quark in the SA doesn't act like a Quark in the real world, why don't we just make characters who can fly through space in their underwear and fire beams from their eyes.
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