1 / 19

高能物理所 张贺 高能物理学会第七届年会 2006 年 10 月 29 日

高能物理所 张贺 高能物理学会第七届年会 2006 年 10 月 29 日. Based on the work by Z.Z. Xing, H. Zhang and S. Zhou, hep-ph/0607091, Phys. Lett. B 641(2006)189. Outline. Introduction family symmetry Generalized Friedberg-Lee model from the family symmetry breaking Summary and discussion.

blantona
Download Presentation

高能物理所 张贺 高能物理学会第七届年会 2006 年 10 月 29 日

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 高能物理所 张贺 高能物理学会第七届年会 2006年10月29日 Based on the work by Z.Z. Xing, H. Zhang and S. Zhou, hep-ph/0607091, Phys. Lett. B 641(2006)189

  2. Outline • Introduction • family symmetry • Generalized Friedberg-Lee model from the family symmetry breaking • Summary and discussion

  3. Lepton flavor mixing matrix: MNS matrix Introduction • Current neutrino oscillation data at 99% CL range Mixing angles Mass differences ? Normal or Inverted A. Strumia and F. Vissani, hep-ph/0606054

  4. Questions: • Neutrino mixings are nearly tri-bimaximal • Why isalmost maximal ? P.F. Harrison, D.H. Perkins and W.G. Scott, PLB 530(2002)167 Bimaximal Trimaximal • Why isso large ? • Why isso small ? Does it vanish?

  5. family symmetry • Naturalness of theory: suppose a dimensionless small parameter a. If a->0, the symmetry is enhanced. In the limits interchange symmetry exists Remark: is arbitrary.

  6. Discrete Family Symmetries S. Pakvasa and H. Sugawara, PLB 73(1978)61 S3 Z2 (mu-tau) A4 Tri-Bimaximal Mixing E. Ma and G. Rajasekaran, PRD 64 (2001) 113012 S4 S3×Z2, D4 … … E. Ma, PLB 632(2006)352

  7. Friedberg-Lee model hep-ph/0606071 • Neutrino mass operator Partial gauge-like symmetry: Consequential neutrino mass matrix:

  8. Neutrino mixing matrix in the FL model • Tri-bimaximal mixing pattern • b=c, exact mu-tau symmetry In the limit Generalized to the CP violating case by inserting phase factor Note: neutrinos are Dirac particles in the FL model

  9. Generalization of the FL model We aim to • Dirac neutrino Majorana neutrino • General CP violating case with all the parameters being complex Scenario A:

  10. Neutrino mixing matrix in scenario A CP phases Mixing angles:

  11. Neutrino masses in scenario A Only the normal mass hierarchy is allowed in scenario A

  12. Scenario B Compared with scenario A, Dirac CP phase is vanishing and two Majorana phases are included. The mixing angles are the same as that in the FL model.

  13. Scenario B Normal mass hierarchy Inverted mass hierarchy Both normal and inverted mass spectrums are allowed m0 can not be purely imaginary. a=b=c is not favored

  14. Scenario B a=b=c is not allowed × Rho and sigma are less restricted in both normal and inverted cases

  15. Generic analysis CP violating phases are less constrained

  16. Generic formulae of masses and Majorana CP phases More freedom to fit exp data Can be tested in the future more precise experiment

  17. CP phase θcorrection Tri-Bi Summary The nearly tri-bimaximal mixing pattern can be regarded as a natural consequence of the slight mu-tau symmetry breaking in the FL model Both scenario A and scenario B are compatible with current experimental data

  18. The maximum of the atmospheric mixing angle may survive the mu-tau symmetry breaking A possible way to generate slight mu-tau symmetry breaking, radiative correction: renormalization group equation evolution, threshold effect… … GUT N EW full theory effective theory S. Luo, J.W. Mei and Z.Z. Xing, PRD 72(2005)053014

  19. Thanks

More Related