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JOURNALS // Fizika i Tekhnika Poluprovodnikov // Archive

Fizika i Tekhnika Poluprovodnikov, 2019 Volume 53, Issue 3, Pages 401–406 (Mi phts5572)

Semiconductor physics

Subnanosecond avalanche switching simulations of $n^{+}$$n$$n^{+}$ silicon structures

N. I. Podolska, P. B. Rodin

Ioffe Institute, St. Petersburg

Abstract: The simulations of recently discovered effect of subnanosecond avalanche switching of Si $n^{+}$$n$$n^{+}$-structures have been performed. The electric field in $n^{+}$$n$$n^{+}$-structure is shown to remain quasi-uniform along the current flow direction during the voltage rise stage and it reaches the effective threshold of impact ionization of $\sim$200 kV/cm in the whole n-base. Comparing simulation results with experiments we argue that the field distribution is as well uniform in the transverse direction. Hense, the ultrafast avalanche transient develops quasi-uniformly in the whole n-base volume. The switching time is about $\sim$150 ps. We compare numerical results obtained for various impact ionization models and estimate parameters of the initial voltage pulse that are required for ultrafast avalanche switching of $n^{+}$$n$$n^{+}$-structures.

Received: 17.10.2018
Revised: 25.10.2018

DOI: 10.21883/FTP.2019.03.47294.8984


 English version:
Semiconductors, 2019, 53:3, 379–384

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© Steklov Math. Inst. of RAS, 2024