This article is cited in 14 papers

Semiconductor physics

Operation of a semiconductor opening switch at ultrahigh current densities

S. K. Lyubutin^a, S. N. Rukin^a, B. G. Slovikovsky^a, S. N. Tsyranov<sup>ab

a</sup> Institute of Electrophysics, Ural Branch, Russian Academy of Sciences, Ekaterinburg
^b Ural Federal University named after the First President of Russia B. N. Yeltsin, Ekaterinburg

Abstract: The operation of a semiconductor opening switch (SOS diode) at cutoff current densities of tens of kA/cm$^2$ is studied. In experiments, the maximum reverse current density reached 43 kA/cm$^2$ for $\sim$40 ns. Experimental data on SOS diodes with a $p^+$–$p$–$n$–$n^+$ structure and a $p$–$n$ junction depth from 145 to 180 $\mu$m are presented. The dynamics of electron-hole plasma in the diode at pumping and current cutoff stages is studied by numerical simulation methods. It is shown that current cutoff is associated with the formation of an electric field region in a thin ($\sim$45 $\mu$m) layer of the structure’s heavily doped $p$-region, in which the acceptor concentration exceeds 10$^{16}$ cm$^{-3}$, and the current cutoff process depends weakly on the $p$–$n$ junction depth.

Received: 06.09.2011
Accepted: 03.10.2011

 English version: Semiconductors, 2012, 46:4, 519–527

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