Author:
Nanda Dibyendu,Borah Debasish
Abstract
AbstractWe propose a new gauged $$B-L$$B-L extension of the standard model where light neutrinos are of Dirac type, naturally acquiring sub-eV mass after electroweak symmetry breaking, without any additional global symmetries. This is realised by choosing a different $$B-L$$B-L charge for right handed neutrinos than the usual $$-1$$-1 so that the Dirac Yukawa coupling involves an additional neutrinophilic scalar doublet instead of the usual Higgs doublet. The model can be made anomaly free by considering four additional chiral fermions which give rise to two massive Dirac fermions by appropriate choice of singlet scalars. The choice of scalars not only helps in achieving the desired particle mass spectra via spontaneous symmetry breaking, but also leaves a remnant $$Z_2 \times Z'_2$$Z2×Z2′ symmetry to stabilise the two dark matter candidates. Apart from this interesting link between Dirac nature of light neutrinos and multi-component dark matter sector, we also find that the dark matter parameter space is constrained mostly by the cosmological upper limit on effective relativistic degrees of freedom $$\Delta N_{\mathrm{eff}}$$ΔNeff which gets enhanced in this model due to the thermalisation of the light right handed neutrinos by virtue of their sizeable $$B-L$$B-L gauge interactions.
Funder
Science and Engineering Research Board
Publisher
Springer Science and Business Media LLC
Subject
Physics and Astronomy (miscellaneous),Engineering (miscellaneous)
Cited by
22 articles.
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