1.) Does every particle that has rest mass also have an anti-particle with which
ID: 2286259 • Letter: 1
Question
1.) Does every particle that has rest mass also have an anti-particle with which it would annihilate?
2.) Does annihilation only occur between like particles? For example what happens if a antineutron (anti u, anti d, anti d) collides with a proton (uud)? What happens if a positron collides with a proton?
3.) Since the Tevatron accelerates antiprotons is this more difficult to handle and dump?
4.) I've read about WIMP annihilation detection. Why would one assume there is any different proportion of WIMPS to anti-WIMPS than as is for non-WIMP matter (where there is far more matter than anti-matter).
Explanation / Answer
For 1) Yes for particles in the standard model scheme.
For 2) You have to figure it out from the SM scheme, linked above and the energies involved.
For 3) It is more difficult to create and handle an anti proton beam as well as to build up a sufficient number of antiprotons in the beam. Dumping is the same for both beams.
For 4)It depends on your model, and how one assumes the WIMPs appear during the cooling after the big bang. It is reasonable to assume that the same CP violation that created the observed asymmetry between matter and antimatter holds for WIMPS too.
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