The matter-antimatter asymmetry problem

Oct 11, 2024
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Current physics says a particle and its antiparticle, a proton, which is positive matter, is made of two up quarks and one down quark; and its corresponding antiparticle, the antiproton, is made of two up antiquarks and one down antiquark (for example, a proton and an antiproton) have the same mass, but opposite electric charge. This is two positive matter protons; positive matter made in a positive EM field (our solar system) and they have two different electrical charges and can cancel each other out electrically, but this is not antimatter.

A neutron is made of two down quarks and one up quark, is positive matter that’s neutrally charged and its corresponding antiparticle, a neutrino or anti-neutron is made of two up antiquarks and one down antiquark, and displaces space/time/forces and is negative matter. Neutrinos pass through positive matter because they are anti-matter of similar composition. Of course, to see negative matter in a larger version would be extremely difficult because it does not give off photons as negative matter absorbs negative energy/photons, however you can look at Kepler 19B, which shows the gravitational waves of an object/planet, but when observing through a telescope it doesn’t reflect any light, so it’s not visible. The reason a neutrino appears to be weightless when they weighed it is because negative matter/neutrino has an upward force to gravity. Positive matter is pulled down towards the center of the object/planet, and anti-matter has an upward/opposite trajectory to gravity. Scientists weighed a neutrino on a scale (right side up like weighing regular matter) and since a neutrino is negative matter and has an upward/opposite trajectory to gravity, it appeared to be weightless when they measured it. If the scale was flipped upside down to weight it, it would have a weight of 1.00727 AMU.
 

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