Mechanisms of Heavy Ion-, Focused X-Ray-, and Pulsed Laser-Induced Single Event Transients in an Epitaxial Silicon Diode

Mechanisms of Heavy Ion-, Focused X-Ray-, and Pulsed Laser-Induced Single Event Transients in an Epitaxial Silicon Diode

Heavy ion-, focused X ray-, and pulsed laser induced single event effects in an epitaxial silicon diode were simulated using Sentaurus Technology Computer Aided Design (TCAD). The variation of the potential with time in simulation agrees with previous experimental data, which suggests that the diffe...

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Hauptverfasser: Ryder, Kaitlyn L., Ryder, Landen D., Sternberg, Andrew L., Kozub, John A., Zhang, EnXia, LaLumondiere, Stephen D., Monahan, Daniele M., Bonsall, Jeremy P., Khachatrian, Ani, Buchner, Steven P., McMorrow, Dale, Hales, Joel M., Zhao, Yuanfu, Wang, Liang, Wang, Chuanmin, Weller, Robert A., Schrimpf, Ronald D., Weissb, Sharon M., Reed, Robert A.
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Sprache:eng
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Lasers And Masers
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Zusammenfassung:Heavy ion-, focused X ray-, and pulsed laser induced single event effects in an epitaxial silicon diode were simulated using Sentaurus Technology Computer Aided Design (TCAD). The variation of the potential with time in simulation agrees with previous experimental data, which suggests that the different radiation sources result in different amounts of potential modulation. The charge generation spatial profile strongly affects the potential modulation. The longitudinal range and starting location of generated charge most strongly impacts the amount of potential modulation, while the radial width has a slight effect, and the temporal duration of charge injection has negligible impact on potential modulation