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A systematic investigation on dark matter-electron scattering in effective field theories

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arxiv 2406.10912 v2 pith:TVQKXOOR submitted 2024-06-16 hep-ph hep-ex

A systematic investigation on dark matter-electron scattering in effective field theories

classification hep-ph hep-ex
keywords darkinteractionsoperatorsfieldrelativisticatomicconsiderdata
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In this paper, we systematically investigate the general dark matter-electron interactions within the framework of effective field theories (EFT). We consider both the non-relativistic (NR) EFT and the relativistic EFT descriptions of the interactions with the spin of dark matter (DM) up to one, i.e., the scalar ($\phi$), fermion ($\chi$), and vector $(X)$ DM scenarios. We first collect the leading-order NR EFT operators describing the DM-electron interactions, and construct especially the NR operators for the vector DM case. Next, we consider all possible leading-order relativistic EFT operators including those with a photon field and perform the NR reduction to match them onto the NR EFT. Then we rederive the DM-bound-electron scattering rate within the NR EFT framework and find that the matrix element squared, which is the key input that encodes the DM and atomic information, can be compactly decomposed into three terms. Each term is a product of a DM response function $(a_{0,1,2})$, which is essentially a factor of Wilson coefficients squared, and its corresponding generalized atomic response function ($\widetilde W_{0,1,2}$). Lastly, we employ the electron recoil data from the DM direct detection experiments (including XENON10, XENON1T, and PandaX-4T) to constrain all the non-relativistic and relativistic operators in all three DM scenarios. We set strong bounds on the DM-electron interactions in the sub-GeV region. Particularly, we find that the latest PandaX-4T S2-only data provide stringent constraints on dark matter with a mass greater than approximately 20 MeV, surpassing those from the previous XENON10 and XENON1T experiments.

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Cited by 2 Pith papers

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  2. Direct-detection constraints on inelastic dark matter with a scalar mediator

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