English

Comprehensive constraints on fermionic dark matter-quark tensor interactions in direct detection experiments

High Energy Physics - Phenomenology 2024-09-04 v3

Abstract

Effective field theory (EFT) provides a model-independent framework for interpreting the results of dark matter (DM) direct detection experiments. In this study, we demonstrate that the two fermionic DM-quark tensor operators, (χˉiσμνγ5χ)(qˉσμνq)(\bar{\chi} i\sigma^{\mu\nu} \gamma^5 \chi) (\bar{q} \sigma_{\mu\nu}q) and (χˉσμνχ)(qˉσμνq)(\bar{\chi} \sigma^{\mu\nu} \chi) (\bar{q} \sigma_{\mu\nu} q), can contribute to the DM electric and magnetic dipole moments via nonperturbative QCD effects, in addition to the well-studied contact DM-nucleon operators. We then investigate the constraints on these two operators by considering both the contact and the dipole contributions using the XENON1T nuclear recoil and Migdal effect data. We also recast other existing bounds on the DM dipole operators, derived from electron and nuclear recoil measurements in various direct detection experiments, as constraints on the two tensor operators. For mχ1GeVm_\chi \lesssim 1\,\rm GeV, our results significantly extend the reach of constraints on the DM-quark tensor operators to masses as low as 5MeV5\,\rm MeV, with the bound exceeding that obtained by the Migdal effect with only contact interactions by an order of magnitude or so. In particular, for the operator (χˉσμνiγ5χ)(qˉσμνq)(\bar{\chi} \sigma^{\mu\nu}i\gamma_5 \chi) (\bar{q} \sigma_{\mu\nu}q) with DM mass mχ10GeVm_\chi \gtrsim 10\,\rm GeV, the latest PandaX constraint on the DM electric dipole moment puts more stringent bounds than the previous direct detection limit.

Keywords

Cite

@article{arxiv.2401.05005,
  title  = {Comprehensive constraints on fermionic dark matter-quark tensor interactions in direct detection experiments},
  author = {Jin-Han Liang and Yi Liao and Xiao-Dong Ma and Hao-Lin Wang},
  journal= {arXiv preprint arXiv:2401.05005},
  year   = {2024}
}

Comments

v1: 19 pages, 4 figures; v2: We have updated discussion on nucleon form factors by using more recent numbers, without modifying our final numerical results; v3: Add comparisons with other constraints and provide a UV model for the generation of tensor operators from tree-level matching; To be published in CPC

R2 v1 2026-06-28T14:13:00.439Z