Calculating the Total Cherenkov Radiation Emitted by Low Energy Protons in Liquid Argon and Comparing with Argon Scintillation Light at 128 nm

arXiv - PHYS - High Energy Physics - Experiment Pub Date : 2024-08-01 DOI:arxiv-2408.00817

Hasan R. Rahman

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Abstract

Neutrino experiments using liquid argon (LAr) detectors estimate the amount of light produced by different types of particles, but only consider scintillation light, at 128 nm, ignoring Cherenkov light contributions. This research aims to theoretically compare these two contributions to the total amount of light produced between ~ 128 - 500 nm for a proton travelling in LAr and explores how to leverage these under-utilized observables for future detector applications. A new theoretical fit of the refractive index of LAr was performed using recent experimental data, which incorporates the physics of anomalous dispersion in the UV resonance for the first time. Using this fit, we integrate the Frank-Tamm (FT) formula to calculate the instantaneous Cherenkov angular distribution and yield of a proton with a given kinetic energy, as well as the integrated distribution and yield over its trajectory. We compare our results with those obtained using two other non-absorptive refractive index fits available in the literature. Because those fits diverge at the resonance, they significantly overestimate the yield.

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计算液氩中低能量质子发射的切伦科夫辐射总量并与 128 纳米波长的氩闪烁光进行比较

使用液态氩（LAr）探测器的中微子实验估计了不同类型粒子产生的光量，但只考虑了 128 纳米的闪烁光，忽略了切伦科夫光的贡献。这项研究旨在从理论上比较这两种光对质子在 LAr 中飞行时产生的 ~ 128 - 500 nm 范围内的总光量的贡献，并探索如何利用这些未充分利用的观测数据来促进未来探测器的应用。利用新近的实验数据对 LAr 的折射率进行了新的理论拟合，首次纳入了紫外共振中异常色散的物理学原理。利用这一拟合，我们整合了弗兰克-塔姆（FT）公式，计算出具有给定动能的质子的瞬时切伦科夫角分布和产率，以及其轨迹上的积分分布和产率。我们将我们的结果与使用文献中另外两种非吸收折射率拟合得到的结果进行了比较。由于这些拟合在共振处发散，因此它们明显高估了产率。

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arXiv - PHYS - High Energy Physics - Experiment

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