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首页> 外文期刊>Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment >High resolution 3D characterization of silicon detectors using a Two Photon Absorption Transient Current Technique
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High resolution 3D characterization of silicon detectors using a Two Photon Absorption Transient Current Technique

机译:使用双光子吸收瞬态电流技术的硅探测器的高分辨率3D表征

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摘要

The Two Photon Absorption Transient Current Technique (TPA-TCT) is a tool to characterize semiconductor detectors using a spatially confined laser probe. Excess charge carriers are produced by the simultaneous absorption of two sub-bandgap photons in the material. The current induced by the motion of carriers is studied using well known TCT systems. Differently to standard TCT where the energy deposition (pair creation) is continuous along the beam, TPA-TCT reduces this region to an ellipsoidal volume, achieving thus, true 3D spatial resolution. This paper gives an overview of the technique and shows its performance in irradiated detectors, in particular diodes and High Voltage CMOS detectors.
机译:两光子吸收瞬态电流技术(TPA-TCT)是一种使用空间受限的激光探头来表征半导体探测器的工具。通过同时吸收材料中的两个亚带隙光子,会产生过多的电荷载流子。利用众所周知的TCT系统研究了由载波运动引起的电流。与标准TCT不同,在标准TCT中,能量沿束连续沉积(成对),TPA-TCT将该区域缩小为椭圆体,从而实现了真正的3D空间分辨率。本文概述了该技术,并展示了其在辐射探测器,特别是二极管和高压CMOS探测器中的性能。

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