通过不同尺寸测试体的扭转平衡探测暗物质相干散射

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-16 DOI:arxiv-2409.09950

Shigeki Matsumoto, Jie Sheng, Chuan-Yang Xing

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引用次数: 0

摘要

暗物质的质量处于波暗物质和粒子暗物质之间的交叉范围，大约是$(10^{-3},\, 10^3)\,$eV，地面实验对它的探索相对较少。在这个质量体系中，暗物质会与宏观物体发生相干散射。相干散射的效应极大地增强了暗物质碰撞导致的目标加速度，其系数高达 $\sim 10^{23}$。我们提出了一种新颖的扭转平衡实验，用不同几何尺寸的测试体来探测这种暗物质引起的加速度。这种方法为质量范围为$(10^{-5}, 10^3)\,$eV的暗物质与核子之间的散射截面提供了最有力的约束。

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Detection of Dark Matter Coherent Scattering via Torsion Balance with Test Bodies of Different Sizes

Dark matter with mass in the crossover range between wave dark matter and particle dark matter, around $(10^{-3},\, 10^3)\,$eV, remains relatively unexplored by terrestrial experiments. In this mass regime, dark matter scatters coherently with macroscopic objects. The effect of the coherent scattering greatly enhances the accelerations of the targets that the dark matter collisions cause by a factor of $\sim 10^{23}$. We propose a novel torsion balance experiment with test bodies of different geometric sizes to detect such dark matter-induced acceleration. This method provides the strongest constraints on the scattering cross-section between the dark matter and a nucleon in the mass range $(10^{-5}, 10^3)\,$eV.

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arXiv - PHYS - High Energy Physics - Phenomenology

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