English

B-L Cosmic strings and Baryogenesis

High Energy Physics - Phenomenology 2007-05-23 v3 Astrophysics

Abstract

Cosmic strings arising from breaking of the U(1)BLU(1)_{B-L} gauge symmetry that occurs in a wide variety of unified models can carry zero modes of heavy Majorana neutrinos. Decaying and/or repeatedly self-interacting closed loops of these ``BLB-L'' cosmic strings can be a non-thermal source of heavy right-handed Majorana neutrinos whose decay can contribute to the observed baryon asymmetry of the Universe (BAU) via the leptogenesis route. The BLB-L cosmic strings are expected in GUT models such as SO(10), where they can be formed at an intermediate stage of symmetry breaking well below the GUT scale 1016\sim 10^{16} GeV; such light strings are not excluded by the CMB anisotropy data and may well exist. We estimate the contribution of BLB-L cosmic string loops to the baryon-to-photon ratio of the Universe in the light of current knowledge on neutrino masses and mixings implied by atmospheric and solar neutrino measurements. We find that BLB-L cosmic string loops can contribute significantly to the BAU for U(1)BLU(1)_{B-L} symmetry breaking scale ηBL\gsim1.7×1011\gev\eta_{B-L}\gsim 1.7\times 10^{11}\gev. At the same time, in order for the contribution of decaying BLB-L cosmic string loops not to exceed the observed baryon-to-photon ratio inferred from the recent WMAP results, the lightest heavy right-handed Majorana neutrino mass M1M_1 must satisfy the constraint M12.4×1012(ηBL/1013\gev)1/2\gevM_1 \leq 2.4 \times 10^{12}(\eta_{B-L}/10^{13}\gev)^{1/2}\gev. This may have interesting implications for the associated Yukawa couplings in the heavy neutrino sector and consequently for the light neutrino masses generated through see-saw mechanism.

Keywords

Cite

@article{arxiv.hep-ph/0406054,
  title  = {B-L Cosmic strings and Baryogenesis},
  author = {Pijushpani Bhattacharjee and Narendra Sahu and U. A. Yajnik},
  journal= {arXiv preprint arXiv:hep-ph/0406054},
  year   = {2007}
}

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