Singlet-Doublet Self-interacting Dark Matter and Radiative Neutrino Mass

Borah, Debasish; Dutta, Manoranjan; Mahapatra, Satyabrata; Sahu, Narendra

doi:10.48550/arxiv.2112.06847

Cited by 2 publications

(2 citation statements)

References 38 publications

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“…In this section, we discuss in details the canonical Scotogenic model [71] which is a simple extension of SM intimately linking the neutrino mass generation with WIMP dark matter. Since, the initial proposal, the scotogenic mechanism has proved immensely popular and many different extensions of the basic mechanism have been proposed over the years, for 3 some recent works see [72][73][74][75][76][77][78][79][80][81][82][83][84][85]. However, the original Scotogenic model of Ma [71] still stands out for its simplicity and elegance.…”

Section: The Canonical Scotogenic Modelmentioning

confidence: 99%

CDF-II $W$ Boson Mass Anomaly in the Canonical Scotogenic Neutrino-Dark Matter Model

Batra¹,

A²,

Mandal³

et al. 2022

Preprint

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The CDF-II collaboration's recent high-precision measurement of W boson mass indicates new physics contribution(s) beyond the Standard Model. We investigate the possibility of the well-known canonical Scotogenic model, where dark matter particle running in the loop generates neutrino masses, to explain the CDF-II measurement. We show that the doublet scalar carrying a dark parity charge can account for the W boson mass anomaly through oblique S,T,U parameter corrections. For both scalar and fermionic dark matter possibilities, we simultaneously examine the constraints coming from a) neutrino mass, oscillation, neutrinoless double beta decay and lepton flavour violation experiments, b) from dark matter relic density and direct detection experiments c) from the oblique S,T,U parameter values consistent with CDF-II W boson measurement. We show that the canonical Scotogenic model can simultaneously explain all the aforementioned issues.

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Section: The Canonical Scotogenic Modelmentioning

confidence: 99%

CDF-II $W$ Boson Mass Anomaly in the Canonical Scotogenic Neutrino-Dark Matter Model

Batra¹,

A²,

Mandal³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…Quite commonly particle physics models with the DM candidate(s) contain heavier particles that can decay with a production of one or several DM states. If the lifetime of these heavy particles is sufficiently long, the contribution from the decays does not simply annihilate away and return the distribution to the equilibrium, but can noticeably alter the evolution of DM distribution, its density and other properties [15,[29][30][31][32]. This additional non-thermal contribution can also arise, for example, from the bubble collisions following a first-order phase transition [33] or primordial black holes evaporation [34].…”

Section: B Sub-threshold Modelmentioning

confidence: 99%

Impact of dark matter self-scattering on its relic abundance

Hryczuk,

Laletin

2022

Preprint

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Elastic self-scatterings do not change the number of dark matter particles and as such have been neglected in the calculation of its relic abundance. In this work we highlight the scenarios where the presence of self-scatterings has a significant impact on the effectiveness of annihilation processes through the modification of dark matter momentum distribution. We study a few example freeze-out scenarios involving resonant and sub-threshold annihilations, as well as a model with an additional source of dark matter particles from the decays of a heavier mediator state. Interestingly, when the calculation is performed at the level of dark matter momentum distribution function, we find that the injection of additional energetic dark matter particles onto the thermal population can lead to a decrease of its final relic abundance.

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Singlet-Doublet Self-interacting Dark Matter and Radiative Neutrino Mass

Cited by 2 publications

References 38 publications

CDF-II $W$ Boson Mass Anomaly in the Canonical Scotogenic Neutrino-Dark Matter Model

CDF-II $W$ Boson Mass Anomaly in the Canonical Scotogenic Neutrino-Dark Matter Model

Impact of dark matter self-scattering on its relic abundance

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