暴涨宇宙学与暗能量 - CPPM.PPT

Neutrino oscillation probes of Dark Energy D.B. Kaplan et al., PRL 93,091801 (2003); V. Barger et al., hep-ph/0502196; M. Cirelli et al., hep-ph/0503028. Connection to Baryogenesis Sakharov conditions: 1. baryon number violation 2. c and cp violation 3. out of thermal equilibrium (cpt conserving ) *Electroweak Baryogenesis *Leptogenesis *Cosmological CPT violation and generation of baryon Number asymmetry in thermal equilibrium M.Li, X.Wang, B.Feng, X. Zhang PRD65,103511 (2002) A. Felice, S. Nasri, M.Trodden PRD67:043509 (2003) M.Li X. Zhang， PLB573,20 (2003) In thermo equilibrium? ? Quintessential Baryogenesis Cohen Kaplan The value of depends on the model of Quintessence model： Solution: Decoupling T： Tracking Albrecht Skordis PRL84,2076(2000) If B-violation is due to electroweak sphalerons TD about 100 GeV requires Quintessential leptogenesis neutrino mass limits Similarly: TD determined by where and which gives for degenerate neutrino masses: defining Cosmological limits give WMAP: SDSS: * In the Quintessence as Dark Energy scenario, this is the minimal model for Baryogenesis in the sense that no extra particle beyond the standard model is introduced . * In ΛCDM model, with f(R): function of Ricci scalar, If , Einstein equation give: so, in radiation dominant Universe, We propose , so generating nB/s naturally! Minimal model of Baryogenesis Davoudiasl,Kitano,Kribs Murayama and Steinhardt H.Li, M.Li,X.Zhang Connection to Dark Matter Interacting with Dark Matter particles such as neutralino similar to neutrino mass variation in oscillation ex