使用锗和硅探测器搜索暗物质的不同实验的重要结果:探测弱相互作用大质量粒子的全面回顾

M. Mirzakhani, S. Maludze
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引用次数: 0

摘要

暗物质在我们理解宇宙的过程中起着至关重要的作用,但其神秘的性质给直接探测带来了挑战。探测暗物质的一个主要障碍是从普遍存在的电磁背景中区分出真正的信号。锗和硅探测器已成为探测暗物质的有效工具。它们具有最小的放射性背景、巨大的有效容积和高效的剔除机制,极大地推动了我们对暗物质及其散射截面极限的理解。利用这些探测器进行的大量实验为我们深入了解暗物质的特性提供了宝贵的资料。科学家们研究了潜在的暗物质候选粒子,如弱相互作用大质量粒子(WIMPs),并根据观测到的散射截面评估了它们成为暗物质粒子的概率。这篇综述综合了重要实验的发现,包括可能的候选粒子及其成为暗物质粒子的可能性。它还通过评估该领域的进展、探测器技术、实验结果和未来前景,认识到暗物质散射截面的局限性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Important Results of Different Experiments in Searching for Dark Matter Using Germanium and Silicon Detectors: A Comprehensive Review for Detecting Weakly Interacting Massive Particles
Dark matter plays a crucial role in our comprehension of the universe, but its mysterious nature poses challenges for direct detection. A primary obstacle in detecting dark matter is distinguishing genuine signals from the prevailing electromagnetic background. Germanium and Silicon detectors have emerged as effective instruments in the pursuit of dark matter detection. Their minimal radioactive backgrounds, substantial active volumes, and efficient rejection mechanisms have significantly advanced our understanding of dark matter and its scattering cross section limits. Numerous experiments employing these detectors have yielded valuable insights into the properties of dark matter. Scientists have investigated potential dark matter candidates like Weakly Interacting Massive Particles (WIMPs) and evaluated their probability of being dark matter particles based on observed scattering cross sections. This review consolidates the findings from significant experiments, encompassing possible candidates and their likelihood of being dark matter particles. It also recognizes the limitations of dark matter scattering cross section by assessing progress in this field, detector technologies, experimental outcomes, and future prospects.
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