| Article | |
| Report number | hep-ph/0112360 ; CERN-TH-2002-002 |
| Title | Standard Model Baryogenesis through Four-fermion Operators in Braneworlds |
| Related title | BRANE-WORLDS |
| Author(s) | Chung, Daniel J.H. (CERN) ; Dent, Thomas (Michigan U.) |
| Affiliation | (CERN) ; (Michigan Univ.) |
| Publication | 2002 |
| Imprint | 30 Dec 2001 |
| Number of pages | 38 |
| In: | Phys. Rev. D 66 (2002) 023501/1-18 |
| DOI | 10.1103/PhysRevD.66.023501 |
| Subject category | Particle Physics - Phenomenology |
| Abstract | We study a new baryogenesis scenario in a class of braneworld models with low fundamental scale, which typically have difficulty with baryogenesis. The scenario is characterized by its minimal nature: the field content is that of the Standard Model and all interactions consistent with the gauge symmetry are admitted. Baryon number is violated via a dimension-6 proton decay operator, suppressed today by the mechanism of quark-lepton separation in extra dimensions: we assume that this operator was unsuppressed in the early Universe due to a time-dependent quark-lepton separation. The source of CP violation is the CKM matrix, in combination with the dimension-6 operators. We find that almost independently of cosmology, sufficient baryogenesis is nearly impossible in such a scenario if the fundamental scale is above 100 TeV, as required by an unsuppressed neutron-antineutron oscillation operator. The only exception producing sufficient baryon asymmetry is a scenario involving out-of-equilibrium c quarks interacting with equilibrium b quarks. |
Corresponding record in: Inspire
Email contact: djchung@maxwell.uchicago.edu
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