中文

Testing Supergravity Grand Unification at Future Accelerator and Underground Experiments

高能物理 - 唯象学 2008-11-26 v1

摘要

The full parameter space of supergravity grand unified theory with SU(5)SU(5) type pνˉKp \rightarrow \bar{\nu} K proton decay is analysed using renormalization group induced electroweak symmetry breaking under the restrictions that the universal scalar mass mom_o and gluino mass are 1\leq 1 TeV (no extreme fine tuning) and the Higgs triplet mass obeys MH3/MG<10M_{H_3}/M_G < 10. Future proton decay experiments at SuperKamiokande or ICARUS can reach a sensitivity for the νˉK\bar{\nu} K mode of (25)×1033(2-5) \times 10^{33} yr allowing a number of predictions concerning the SUSY mass spectrum. Thus either the pνˉKp \rightarrow\bar{\nu} K decay mode will be seen at these experiments or a chargino of mass mW~<100m_{\tilde{W}} < 100 GeV will exist and hence be observable at LEP2. Further, if (pνˉK)>1.5×1033(p \rightarrow \bar{\nu} K) > 1.5 \times 10^{33} yr, then either the light Higgs has mass mh95m_h \leq 95 GeV or mW~100m_{\tilde{W}} \leq 100 GeV i.e. either the light Higgs or the light chargino (or both) would be observable at LEP2. Thus, the combination of future accelerator and future underground experiments allow for strong experimental tests of this theory.

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引用

@article{arxiv.hep-ph/9309252,
  title  = {Testing Supergravity Grand Unification at Future Accelerator and Underground Experiments},
  author = {R. Arnowitt and Pran Nath},
  journal= {arXiv preprint arXiv:hep-ph/9309252},
  year   = {2008}
}

备注

7 figures available upon request, CTP-TAMU-32/93, NUB-TH-3066/93 and SSCL-Preprint-440