DarkNESS 任务：利用 Skipper-CCD 卫星观测站探测暗物质

Proceedings of XVIII International Conference on Topics in Astroparticle and Underground Physics — PoS(TAUP2023) Pub Date : 2024-02-20 DOI:10.22323/1.441.0062

N. Saffold, Phoenix M. Alpine, Rouven Essig, Juan Estrada, Terry Kim, Donna Kubik, Michael F. Lembeck

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引用次数: 1

摘要

具有亚电子噪声的 Skipper-CCD 的发明为 SENSEI 和 DAMIC 等开创性的低阈值暗物质（DM）实验铺平了道路。这些实验通常部署在地下，以减少宇宙源背景；然而，由于地球大气层和地壳的衰减，地下实验无法获得某些暗物质特征。DarkNESS任务将在低地球轨道（LEO）上的6U立方体卫星上部署Skipper-CCD阵列，以搜索强相互作用亚GeV DM产生的电子反冲以及不育中微子衰变产生的X射线线特征。利用从低地轨道进行的一系列观测，DarkNESS 任务将为 DM-电子散射截面设定有竞争力的上限，并帮助解决与声称观测到的 3.5 keV X 射线相关的实验难题，该 X 射线可能由无菌中微子衰变产生。这项工作将描述DarkNESS仪器、在空间环境中操作Skipper-CCD的技术挑战、DarkNESS任务的科学目标以及DarkNESS将探测的DM参数空间。

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The DarkNESS mission: probing dark matter with a Skipper-CCD satellite observatory

The invention of Skipper-CCDs with sub-electron noise has paved the way for groundbreaking low-threshold dark matter (DM) experiments, such as SENSEI and DAMIC. Conventionally, these experiments are deployed underground to mitigate cosmogenic backgrounds; however, some DM signatures are inaccessible to underground experiments due to attenuation in the Earth’s atmosphere and crust. The DarkNESS mission will deploy an array of Skipper-CCDs on a 6U CubeSat in Low Earth Orbit (LEO) to search for electron recoils from strongly-interacting sub-GeV DM as well as X-ray line signatures from sterile neutrino decay. Using a series of observations from LEO, the DarkNESS mission will set competitive upper limits on the DM-electron scattering cross section and help resolve the experimental conundrum associated with the purported observation of a 3.5 keV X-ray line, potentially produced from sterile neutrino decay. This work will describe the DarkNESS instrument, the technical challenges in operating Skipper-CCDs in the space environment, the scientific objectives of the DarkNESS mission, and the DM parameter space that DarkNESS will probe.

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Proceedings of XVIII International Conference on Topics in Astroparticle and Underground Physics — PoS(TAUP2023)

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