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Phenomenology of Non-minimal SUSY Models

Phenomenology of Non-minimal SUSY Models. Jin Min Yang 杨 金 民. Institute of Theoretical Physics, Academia Sinica, Beijing. 中国科学院 理论物理研究所. 2009.10.22 国立清华大学. NMSSM. arXiv: 0 810.0751 , in JHEP , Cao, Yang  . arXiv: 0 810.0989 , in PRD , Cao, Yang  . SUSY.

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Phenomenology of Non-minimal SUSY Models

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  1. Phenomenology of Non-minimal SUSY Models Jin Min Yang 杨 金 民 Institute of Theoretical Physics, Academia Sinica, Beijing 中国科学院 理论物理研究所 2009.10.22 国立清华大学

  2. NMSSM arXiv: 0810.0751 , in JHEP , Cao, Yang   arXiv: 0810.0989 , in PRD , Cao, Yang   SUSY arXiv: 0901.1437, in PRD(R), Cao, Logan, Yang  arXiv: 0901.3818, in PLB, Wang, Xiong, Yang nMSSM MSSM arXiv: 0908.0486, in JHEP,  Wang, Xiong, Yang, Yu arXiv: 0801.1169, in PRD, Heng, Oakes, Wang, Xiong, Yang  SUSY

  3. Outline 1. Models: MSSM,NMSSM,nMSSM 2. Phenomenology Studies 2.1 Current expt constraints 2.2 Allowed parameter space 2.3 Zbb anomaly 2.4 B-meson FCNC decays 2.5 Residual effects of heavy SUSY 2.6 Explain PAMELA 3、Conclusion

  4. 1. SUSY Models Fine-Tuning GUT Dark Matter SUSY Electroweak Baryogenesis Inflation Affleck-Dine Baryogenesis

  5. SUSY |B |F

  6. R-conserving SUSY Models MSSM, CMSSM (mSUGRA, GMSB, AMSB) NMSSM,nMSSM Split-SUSY · · · • R-violating SUSY Models

  7. MSSM NMSSM, nMSSM CMSSM -problem little hierarchy

  8. -problem in MSSM: dimensionful parameter conserving SUSY should be at Planck scale or 0 chargino is too light =0 only one Higgs-doublet gets vev

  9. little hierarchy in MSSM: • Experimental lower bound need sizable loop effects ! mh  114 GeV (95 GeV) • Theoretical upper bound mh  90GeV (tree-level) ~ 500 GeV  135GeV (loop-level) 100 GeV

  10. NMSSM, nMSSM: • Dynamical solution to -problem • Solve little hierarchy problem Field Content: MSSM + singlet no dimensionful parameter (NMSSM) SUSY-conserving part: naturally small dimensionful parameter (nMSSM) SUSY breaking ( < TeV ) dimensionful soft parameters (TeV) SUSY-breaking part: trigger EWSB ( < TeV ) generate -term ( < TeV )

  11. motivated from top-down view ? E6 models (superstring-inspired) string scale SO(10)  U(1)  … at low energy: S, Hu,Hd+ heavy particles U(1) global PQ cubic term (NMSSM) to break U(1) PQ tadpole (nMSSM)

  12. NMSSM Superpotential: U(1)B: Q(1/3), U(-1/3), D(-1/3), L(0), E(0), Hu(0), Hd(0), S(0) U(1)L: Q(0), U(0), D(0), L(1), E(-1), Hu(0), Hd(0), S(0) U(1)R: Q(1), U(1), D(1), L(1), E(1), Hu(1), Hd(1), S(1), W(3) 0 U(1)PQ: Q(-1), U(0), D(0), L(-1), E(0), Hu(1), Hd(1), S(-2) Scalor Potential: U(1)R Z3 (non-R) U(1)R ( A0, A0 ):PGB

  13. NMSSM domain wall: Z3 ( X ei2/3X ) SSB domain wall must disappear before BBN So we need Z3-breaking term in Veff • impose discrete R-symmetry on W • introduce high-order non-renormalizable operator to W multi-loop large enough to break Z3 too small to upset gauge hierarchy

  14. nMSSM Superpotential: U(1)B: Q(1/3), U(-1/3), D(-1/3), L(0), E(0), Hu(0), Hd(0), S(0) U(1)L: Q(0), U(0), D(0), L(1), E(-1), Hu(0), Hd(0), S(0) U(1)R: Q(1), U(1), D(1), L(1), E(1), Hu(0), Hd(0), S(2), W(2)  0 U(1)PQ: Q(-1), U(0), D(0), L(-1), E(0), Hu(1), Hd(1), S(-2) U(1)R Z2 matter parity

  15. Spectrum of NMSSM/nMSSM: One more CP-odd Higgs (A1or a) + MSSM One more CP-even Higgs One more neutralino

  16. How tosolve -problem? V • Before SUSY breaking SUSY vacuum: Vmin = 0 〈 〉 = 0  EW not broken; no  term • With SUSY breaking (TeV) dimensionful soft parameters (TeV) V non-SUSY vacuum: Vmin < 0 〈 〉  0 SUSY breaking ( < TeV )  trigger EWSB ( < TeV ) generate -term ( < TeV )

  17. How to solve little hierarchy? • mh theoretical upper bound MSSM: NMSSM: • mh experimental lower bound suppressed ! has singlet component suppressed !

  18. 2.Phenomenology Studies 2.1 Expt Constraints (1) direct bounds: • LEP I • LEP II • Tevatron • LEP II

  19. V (2) Stability of Higgs Potential true (physical) vaccum  local vaccum (3) Cosmic Dark Matter (WMAP)

  20. (4) Precision Electroweak Data 1 ,2 ,3 (S, T, U) • Rb • = (Zbb)/  (Zhadrons) SUSY

  21. (6)  g-2   

  22. Under all above constraints • scan over parameter space • to find out the allowed part • display the allowed part • predict FCNC B-decay • can solve Zbb anomaly ? • residual SUSY effects • explain Pamela ?

  23. 2.2 Allowed Parameter Space NMSSM Dark Matter Higgs arXiv: 0810.0989 , in PRD , Cao, Yang  

  24. nMSSM Dark Matter Higgs Decays arXiv: 0901.1437, in PRD(R), Cao, Logan, Yang 

  25. 2.3 Zbb anomaly arXiv: 0810.0751 , in JHEP , Cao, Yang  

  26. 2.4 FCNC B -Decays SUSY SUSY arXiv: 0801.1169, in PRD, Heng, Oakes, Wang, Xiong, Yang 

  27. expt data no expt data

  28. NMSSM Sky-blue points excluded by

  29. NMSSM Sky-blue points excluded by

  30. 2.5 Residual Effects of Heavy SUSY Heavy sparticles can leave over sizable quantum effects in the light Higgs sector arXiv: 0901.3818, in PLB, Wang, Xiong, Yang

  31. NMSSM

  32. 2.6 To Explain PAMELA --Pamela+Relic density via Sommerfeld Enhance NMSSM nMSSM No! • LSP mass in a narrow range • No light particles to give SE OK ! general singlet extension of MSSM:

  33. General singlet extension of MSSM:   Final states • h ~ GeV, a < 0.5 GeV singlet-like Sommerfeld enhancement

  34. h ~ GeV , a < 0.5 GeV arXiv: 0908.0486, in JHEP,  Wang, Xiong, Yang, Yu

  35. Sommerfeld enhancement

  36. PAMELA arXiv: 0906.0362 Hooper, Tait

  37. Implication on SM-like Higgs decay:

  38. other visible modes (like ) are supressed

  39. 3. Conclusion NMSSM, nMSSM, General Singlet Extension Precision Electroweak Data Rb Zbb anomaly B-meson FCNC decays Residual effects of heavy SUSY Higgs Decays  g-2 Dark Matter Relic Density . . . . . . . . . PAMELA

  40. 温家宝: 一个民族有一些关注天空的人, 他们才有希望; 一个民族只是关心脚下的事情, 那是没有未来的。 屈原: 天 问 遂古之初谁传道之上下未形何由考之 冥昭瞢暗谁能极之冯翼惟象何以识之 明明暗暗惟时何为阴阳三合何本何化。

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