The Large Magellanic Cloud: expanding the low-mass parameter space of dark matter direct detection

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-13 DOI:arxiv-2409.09119

Javier Reynoso-Cordova, Nassim Bozorgnia, Marie-Cécile Piro

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Abstract

We investigate how the Large Magellanic Cloud (LMC) impacts the predicted signals in near-future direct detection experiments for non-standard dark matter (DM) interactions, using the Auriga cosmological simulations. We extract the local DM distribution of a simulated Milky Way-like halo that has an LMC analogue and study the expected signals in DarkSide-20k, SBC, DARWIN/XLZD, SuperCDMS, NEWS-G, and DarkSPHERE considering DM-nucleon effective interactions, as well as inelastic DM scattering. We find that the LMC causes substantial shifts in direct detection exclusion limits towards smaller cross sections and DM masses for all non-relativistic effective field theory (NREFT) operators, with the impact being highly pronounced for velocity-dependent operators at low DM masses. For inelastic DM, where the DM particle up-scatters to a heavier state, the LMC shifts the direct detection exclusion limits towards larger DM mass splitting and smaller cross sections. Thus, we show that the LMC significantly expands the parameter space that can be probed by direct detection experiments towards smaller DM-nucleon cross sections for all NREFT operators and larger values of mass splitting for inelastic DM.

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大麦哲伦云：扩大暗物质直接探测的低质量参数空间

我们利用 Auriga 宇宙学模拟，研究了大麦哲伦云（LMC）如何影响近期直接探测非标准暗物质（DM）相互作用实验的预期信号。我们提取了类似银河系的模拟光环的局部DM分布，并研究了DarkSide-20k、SBC、DARWIN/XLZD、SuperCDMS、NEWS-G和DarkSPHERE中考虑到DM-核子有效相互作用以及非弹性DM散射的预期信号。我们发现，对于所有非相对论有效场理论（NREFT）算子来说，LMC都会导致直接探测排除极限向更小的截面和DM质量发生实质性的偏移，在DM质量较低时，这种影响对于速度相关算子来说非常明显。对于非弹性DM，即DM粒子向上散射到一个更重的状态，LMC使直接探测的排除极限转向更大的DM质量分裂和更小的截面。因此，我们表明LMC极大地扩展了直接探测实验可探测的参数空间，使所有NREFT操作者的DM-核子截面变小，非弹性DM的质量分裂值变大。

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arXiv - PHYS - High Energy Physics - Phenomenology

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