A new rear-illuminated vanadium-compensated 4H-SiC photoconductive switches with AlN anti-reflection coating

Lai, Kaiyuan; Qi, Yafang; Lv, Haojie; Qi, Bao; Zhao, Yili

doi:10.1088/1742-6596/1520/1/012010

Cited by 3 publications

(1 citation statement)

References 21 publications

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“…Recently, researchers have investigated the properties of SiC with different impurities. Among them, the Vanadium-compensated semi-insulating (VCSI) SiC are increasingly gaining popularity [6][7][8]. The amphoteric nature of vanadium allows it to compensate the residual amounts of co-dopants in the form of N, B, and Al, which enables a semi-insulating PCSS.…”

Section: Introductionmentioning

confidence: 99%

A Method to Simulate Extrinsic Light Excitation of Vanadium-Compensated 6H-SiC

Yang

Chu

et al. 2023

MSF

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Extrinsic light excitation has much lower absorption coefficient compared to intrinsic light excitation, which can better utilize the “bulk” of semiconductor rather than a thin surface as the depth of light absorption is much larger, making it suitable for higher power applications. However, commercial technology computer aided design (TCAD) software has not developed a model for extrinsic light excitation. Therefore, we construct a model of Vanadium-compensated semi-insulating (VCSI) 6H-SiC photoconductive semiconductor switch (PCSS) illuminated with sub-bandgap light, and realize the process of light absorption at V deep acceptor level in Silvaco TCAD simulation by modifying the electron emission rate. Then, we simulate the transient response of 6H-SiC triggered by a nanosecond light pulse and discuss the feasibility of this method.

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Section: Introductionmentioning

confidence: 99%

A Method to Simulate Extrinsic Light Excitation of Vanadium-Compensated 6H-SiC

Yang

Chu

et al. 2023

MSF

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Influence of Pinch Effect on the Lifetime of a 2MW Silicon Carbide Photoconductive Semiconductor Switch

Sun,

Guo,

Zheng

et al. 2024

IEEE Trans. Electron Devices

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Physics-Based Artificial Neural Network Assisting in Extracting Transient Properties of Extrinsically Triggering Photoconductive Semiconductor Switches

Zheng,

Hu,

Wang

et al. 2024

Micromachines

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In this paper, a physics-based ANN assisting method for extracting transient properties of extrinsically triggering photoconductive semiconductor switches (ET-PCSSs) is proposed. It exploits the nonlinear mapping of ANN between transient current (input) and doping concentration (output). According to the basic laws of photoelectric device operating, two types of ANN models are constructed by gaussian and polynomial fitting. The mean absolute error (MAE) of forecasting transient photocurrent can be less than 10 A under low triggering optical powers, which verifies the feasibility of ANN assisting TCAD applied to PCSSs. The results are comparable to computation by Mixed-Mode simulation, yet even thousands of seconds of CPU runtime cost are saved in every period. To improve the robustness of the Poly-ANN predictor, Bayesian optimization (BO) is implemented for minimizing the curl deviation of photocurrent-time curves.

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A new rear-illuminated vanadium-compensated 4H-SiC photoconductive switches with AlN anti-reflection coating

Cited by 3 publications

References 21 publications

A Method to Simulate Extrinsic Light Excitation of Vanadium-Compensated 6H-SiC

A Method to Simulate Extrinsic Light Excitation of Vanadium-Compensated 6H-SiC

Influence of Pinch Effect on the Lifetime of a 2MW Silicon Carbide Photoconductive Semiconductor Switch

Physics-Based Artificial Neural Network Assisting in Extracting Transient Properties of Extrinsically Triggering Photoconductive Semiconductor Switches

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