蒙特卡罗方法
计算机科学
光子
光子计数
简单(哲学)
统计物理学
算法
统计
物理
数学
光学
哲学
认识论
作者
Zixuan Wang,Z.-H. Cao,Jian Yang,Yang Wang,Yuxuan Yang,Xiangliang Jin
标识
DOI:10.1109/jsen.2025.3564964
摘要
Silicon-based single-photon avalanche diodes (SPADs) can realize extremely weak light detection, and are widely used in marine LiDAR, space exploration, fluorescence imaging and other fields. Accurately modeling the photon detection probability (PDP) of SPAD is crucial for promoting the performance of photoelectric sensors. In this paper, the SPADs are used to simulate the microscopic motion process of carriers based on the simple Monte Carlo (SMC) model, which in turn predicts the macroscopic electrical parameter PDP. Utilizing the SMC model, we designed and fabricated two types of SPAD devices with different avalanche junctions using the 0.18 μm Bipolar-CMOS-DMOS (BCD) process. The experimental test results closely match our predictions: for SPAD-A (N+/PW avalanche junction), the absolute average error for PDP is 1.48%, with the maximum error of 5.20%@360 nm. For SPAD-B (P+/NW avalanche junction), the absolute average error for PDP is 1.61%, with a maximum error of 5.10%@900 nm.
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