Dutta, Koushik ; Ghosh, Avirup ; Kar, Arpan ; Mukhopadhyaya, Biswarup (2021) Decaying fermionic warm dark matter and XENON1T electronic recoil excess Physics of the Dark Universe, 33 . p. 100855. ISSN 2212-6864
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Official URL: http://doi.org/10.1016/j.dark.2021.100855
Related URL: http://dx.doi.org/10.1016/j.dark.2021.100855
Abstract
In the light of the recently observed XENON1T electronic recoil (ER) data, we investigate the possibility of constraining the parameter space of a generic fermionic warm dark matter (WDM), decaying into a standard model (SM) neutrino and a photon. The photon as a decay product, when produced inside the XENON1T chamber, interacts with an electron of a xenon (Xe) atom, leading to a contribution in the observed ER data. We add this dark matter (DM) induced signal over the standard background (B0) considered by the XENON1T collaboration and perform a χ2 fit against the XENON1T data to obtain the best-fit values of the DM decay width and the associated 95% confidence level (C.L.) band for DM mass (mχ) varied in the range 2−60 keV. Additionally, we have extended our analysis by including two other background models available in the literature and in each case, the corresponding limits on the DM decay width are estimated for DM mass (mχ) in the domain 2−18 keV. By comparing the constraints, obtained by fitting the XENON1T data, with the upper limits arising from various existing astrophysical and cosmological observations, we find that, for the background model B0, a fair amount of the DM parameter space is allowed at 95% C.L. for DM masses outside the range 3.5keV≲mχ≲8.5keV. However, in case of other two background models, reasonable parts of the DM parameter space are favoured at 95% C.L. by all astrophysical data for all DM masses in the range 2−18 keV.
Item Type: | Article |
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Source: | Copyright of this article belongs to Elsevier Science. |
ID Code: | 125397 |
Deposited On: | 04 Feb 2022 04:23 |
Last Modified: | 04 Feb 2022 04:23 |
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