First Direct Search for Light Dark Matter Using the NEON Experiment at a Nuclear Reactor

arXiv - PHYS - High Energy Physics - Experiment Pub Date : 2024-07-23 DOI:arxiv-2407.16194

J. J. Choi, C. Ha, E. J. Jeon, J. Y. Kim, K. W. Kim, S. H. Kim, S. K. Kim, Y. D. Kim, Y. J. Ko, B. C. Koh, S. H. Lee, I. S. Lee, H. Lee, H. S. Lee, J. S. Lee, Y. M. Oh, B. J. Park

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Abstract

We report new results from the Neutrino Elastic Scattering Observation with NaI (NEON) experiment in the search for light dark matter (LDM) using 2,636 kg$\cdot$days of NaI(Tl) exposure. The experiment employs an array of NaI(Tl) crystals with a total mass of 16.7 kg, located 23.7 meters away from a 2.8 GW thermal power nuclear reactor. We investigated LDM produced by the $\textit{invisible decay}$ of dark photons generated by high-flux photons during reactor operation. The energy spectra collected during reactor-on and reactor-off periods were compared within the LDM signal region of $1-10$ keV. No signal consistent with LDM interaction with electrons was observed, allowing us to set 90% confidence level exclusion limits for the dark matter-electron scattering cross-section ($\sigma_e$) across dark matter masses ranging from 1 keV/c$^2$ to 1 MeV/c$^2$. Our results set a 90% confidence level upper limit of $\sigma_e = 3.17\times10^{-35}~\mathrm{cm^2}$ for a dark matter mass of 100 keV/c$^2$, marking the best laboratory result in this mass range. Additionally, our search extends the coverage of LDM below 100 keV/c$^2$ first time.

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利用核反应堆 NEON 实验首次直接搜索轻暗物质

我们报告了用NaI（Tl）暴露2,636千克/天的中微子弹性散射观测（NEON）实验在寻找轻暗物质（LDM）方面的新结果。该实验使用了一个总重量为 16.7 千克的 NaI（Tl）晶体阵列，它距离一个 2.8 千兆瓦热功率核反应堆 23.7 米。我们研究了由反应堆运行期间高通量光子产生的暗光子的$textit{invisible decay}$产生的LDM。在1-10keV的LDM信号区域内，我们比较了在反应堆开启和关闭期间收集到的能谱，没有观测到与LDM与电子相互作用相一致的信号，从而为暗物质质量从1keV/c$^2$到1 MeV/c$^2$的暗物质-电子散射截面（$\sigma_e$）设定了90%置信度的排除限。我们的结果为暗物质质量为100keV/c$^2$时设定了一个90%置信度的上限，即$\sigma_e = 3.17\times10^{-35}~\mathrm{cm^2}$，这标志着实验室在这一质量范围内的最佳结果。此外，我们的搜索首次扩展了100keV/c$^2$以下的LDM覆盖范围。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - High Energy Physics - Experiment

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