Open Access
Applied Sciences (Switzerland), volume 15, issue 2, pages 645
Photoconductive Semiconductor Switches: Materials, Physics, and Applications
Vincent Meyers
1
,
Lars Voss
2
,
Jack D. Flicker
1
,
L Garcia Rodriguez
1
,
Harold P. Hjalmarson
1
,
Jane M. Lehr
3
,
Nicolas Gonzalez
3
,
Greg W Pickrell
1
,
Soroush Ghandiparsi
2
,
Robert J. Kaplar
1
Publication type: Journal Article
Publication date: 2025-01-10
Journal:
Applied Sciences (Switzerland)
scimago Q2
SJR: 0.508
CiteScore: 5.3
Impact factor: 2.5
ISSN: 20763417
Abstract
Photoconductive semiconductor switching (PCSS) devices have unique characteristics to address the growing need for electrically isolated, optically gated, picosecond-scale jitter devices capable of operating at high voltage, current, and frequency. The state of the art in material selection, doping, triggering, and system integration in PCSSs is presented. The material properties and doping considerations of GaN, GaAs, SiC, diamond, and β-Ga2O3 in the fabrication of PCSS devices are discussed. A review of the current understanding of the physics of the high-gain mode known as lock-on is presented.
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