That seems to cause more CP violation as Dark Matter is far more prominent than Baryons, 0.23 v 0.045, or any "normal" matter at 0.07, Unless they are suggesting that only "stable" dark matter is anti-baryonic which raises more questions still... In any case it would be the only known example where the anti-particle is more prominent than the norm, already seems strange.
What do they expect to see in an anti-baryon decay? Equal measure anti-Quark and anti-Lepton? And would this give clues as to why Baryons interact more strongly than normal Ferimons?
What do they expect to see in an anti-baryon decay? Equal measure anti-Quark and anti-Lepton? And would this give clues as to why Baryons interact more strongly than normal Ferimons?
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