Defect recombination origin of low energy excess in semiconductor detectors

Kai Nordlund, Fanhao Kong, Flyura Djurabekova, Matti Heikinheimo, Kimmo Tuominen, Nader Mirabolfathi
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Abstract

When the detection threshold in semiconductor detectors is pushed to increasingly low energies, an ``excess" signal of apparent energy release events below a few hundred eV is observed in several different kinds of detectors, hindering their sensitivity for rare event signals in this energy range. Using atomistic simulations with classical thermostat and quantum thermal bath, we show that this kind of signal is consistent with energy release from long-term recombination events of complex defects that can be formed by any kind of nuclear recoil radiation events. The recombination events are shown to have a very similar exponential dependence of energy as that observed in experiments. By detailed analysis of recombination events, we show that crossing a low energy barrier ($\lesssim$ 0.1 eV) can trigger larger energy releases in an avalanche-like effect. This explains why large energy release events can occur even down to cryogenic temperatures.
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半导体探测器低能量过剩的缺陷重组根源
当半导体探测器的探测阈值被推到越来越低的能量时,在几种不同类型的探测器中会观察到低于几百 eV 的表观能量释放事件的 "过量 "信号,从而阻碍了它们对这一能量范围内的罕见事件信号的灵敏度。通过使用经典恒温器和量子热浴进行原子模拟,我们发现这种信号与复杂缺陷的长期重组事件释放的能量是一致的,这些缺陷可以由任何类型的核反冲辐射事件形成。重组事件的能量指数依赖性与实验中观察到的非常相似。通过对重组事件的详细分析,我们发现跨越一个低能垒(0.1eV)就能在雪崩效应中引发巨大的能量释放。这就解释了为什么即使在低温下也会发生大能量释放事件。
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