Integrated computational study of an optoelectronic pulsed power radio frequency source

Authors

Timothy Wolfe
John Cetnar
Eric Moore
Roger Burchette
Seth Nickolas
Ashley Francis
Derrick Langley, Air Force Institute of Technology
James C. Petrosky, Air Force Institute of TechnologyFollow
Anthony J. Terzuoli Jr., Air Force Institute of TechnologyFollow
Timothy W. Zens

Document Type

Conference Proceeding

Publication Date

3-22-2015

Abstract

The integration of optoelectronic devices, such as photoconductive semiconductor switches (PCSS), into existing antenna source architectures for the generation of radio frequency (RF) pulses may yield higher switching speeds and improved power efficiency over conventional switching methods while reducing size/weight. The key enabling technologies for this design include semi-insulating wide bandgap materials and extrinsic photoconduction: Both of which involve physical models that still require further investigation. This paper presents a computational methodology for studying a novel PCSS design based on existing data through the use of multiple integrated solvers for each major physical domain. In addition, it presents a comparison to current literature on modern conventional and optical switching systems for pulsed radiating systems.

Comments

This conference paper is available through subscription or purchase from IEEE, using: https://ieeexplore.ieee.org/document/7109700

Source Publication

2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015

Recommended Citation

T. Wolfe et al., "Integrated computational study of an optoelectronic pulsed power radio frequency source," 2015 31st International Review of Progress in Applied Computational Electromagnetics (ACES), Williamsburg, VA, USA, 2015, pp. 1-2.