Numerical Simulations of Radiation Damage Effects in Active-Edge Silicon Pixel Sensors for High-Energy Physics Experiments

2018 International Semiconductor Conference (CAS) Pub Date : 2018-10-01 DOI:10.1109/SMICND.2018.8539752
D. Djamai, E. Gkougkousis, M. Chahdi, A. Lounis, S. Oussalah
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Abstract

High-energy physics experiments at the future CERN High Luminosity LHC (Large Hadron Collider) require highly segmented pixelated sensors of increased geometrical efficiency and the ability of withstanding extremely high radiation damage. The performance of planar n-on-p sensors with active edges is simulated at very high fluences (2×1016neq/cm2), using a recent three level trap model for p-type silicon material. Precise structural definition is achieved by investigating the doping profile of the devices via the Secondary Ion Mass Spectrometry technique. The breakdown voltage, and hole density distribution are studied as a function of radiation fluences.
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高能物理实验有源边缘硅像素传感器辐射损伤效应的数值模拟
未来欧洲核子研究中心(CERN)高亮度强子对撞机(LHC)的高能物理实验需要高度分割的像素传感器,以提高几何效率和承受极高辐射损伤的能力。利用最新的p型硅材料三能级阱模型,模拟了具有活动边缘的平面n-on-p传感器在非常高的影响(2×1016neq/cm2)下的性能。通过二次离子质谱技术研究器件的掺杂谱,实现了精确的结构定义。研究了击穿电压和空穴密度分布随辐射影响的变化规律。
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2018 International Semiconductor Conference (CAS)
2018 International Semiconductor Conference (CAS)
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