中子标记可大大降低超级卡莫康德的溅射背景

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-16 DOI:arxiv-2409.10611

Obada Nairat, John F. Beacom, Shirley Weishi Li

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引用次数: 0

摘要

超级卡米康德的溅射背景--宇宙射线μ介子作用下核素的延迟β衰变--几乎都是由带有强子簇射的小部分μ介子产生的。我们表明，这些强子簇射也会产生中子；由于最近在超级卡米康德中加入了溶解钆，因此可以高效率地探测到它们的俘获。我们的研究表明，基于中子标记的新的削减方法可以比目前的削减方法减少至少四倍的溅射背景。这些发现提高了在深度更浅的超级卡米康德中添加钆的重要性。此外，类似的方法也可用于其他探测器，例如同样位于较浅深度的 JUNO 液体闪烁探测器。

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Neutron Tagging Can Greatly Reduce Spallation Backgrounds in Super-Kamiokande

Super-Kamiokande's spallation backgrounds - the delayed beta decays of nuclides following cosmic-ray muons - are nearly all produced by the small fraction of muons with hadronic showers. We show that these hadronic showers also produce neutrons; their captures can be detected with high efficiency due to the recent addition of dissolved gadolinium to Super-Kamiokande. We show that new cuts based on the neutron tagging of showers could reduce spallation backgrounds by a factor of at least four beyond present cuts. With further work, this could lead to a near-elimination of detector backgrounds above about 6 MeV, which would significantly improve the sensitivity of Super-Kamiokande. These findings heighten the importance of adding gadolinium to Hyper-Kamiokande, which is at a shallower depth. Further, a similar approach could be used in other detectors, for example, the JUNO liquid-scintillator detector, which is also at a shallower depth.

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arXiv - PHYS - High Energy Physics - Phenomenology

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