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Matter and antimatter asymmetry in the early universe: new hypothesis of hydrogen formation based on wave-particle duality or electric dipole asymmetryKoch, Horst Josef 08 March 2014 (has links) (PDF)
A new hypothesis of matter formation after the big bang based on either particle-wave duality or electric dipole asymmetry. Both assumptions allow to postulate that the probability of matter formation is slightly higher than that of antimatter formation. As a consequence, this difference of probabilities ∆Pp for protons and ∆Pe with regard to electrons avoided complete annihilation in the beginning.
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Matter and antimatter asymmetry in the early universe: new hypothesis of hydrogen formation based on wave-particle duality or electric dipole asymmetryKoch, Horst Josef 08 March 2014 (has links)
A new hypothesis of matter formation after the big bang based on either particle-wave duality or electric dipole asymmetry. Both assumptions allow to postulate that the probability of matter formation is slightly higher than that of antimatter formation. As a consequence, this difference of probabilities ∆Pp for protons and ∆Pe with regard to electrons avoided complete annihilation in the beginning.
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