Title :
Switched optoelectronic microwave load
Author_Institution :
Universit?ƒ??t Erlangen-N?ƒ??rnberg, Institut f?ƒ??r Hochfrequenztechnik, Erlangen, West Germany
fDate :
10/1/1982 12:00:00 AM
Abstract :
The paper presents the analysis of a switched optoelectronic microwave load which can work either as a laser-controlled, matched or adjustable, resistive load or as a high-speed optoelectronic microwave switch. The device consists of a GaAs microstrip section controlled by a pulse-operated laser diode via substrate-edge-excitation. The exponential decay of photoconductivity across a longitudinal section of the microstrip forms a laser-induced electron-hole plasma wedge that works as a lossy tapered transmission-line section. The specific microwave power distribution within the excited region is derived in detail, as is the total input reflection coefficient under two special operating conditions (open-ended section and matched section). Numerical results are presented for a 906 nm excitation.
Keywords :
III-V semiconductors; gallium arsenide; photoconducting devices; semiconductor switches; solid-state microwave devices; strip line components; 906 nm excitation; GaAs microstrip; high-speed optoelectronic microwave switch; input reflection coefficient; laser controlled resistive load; laser-induced electron-hole plasma wedge; lossy tapered transmission-line; microwave power distribution; photoconductivity; pulse-operated laser diode; substrate-edge-excitation; switched optoelectronic microwave load;
Journal_Title :
Solid-State and Electron Devices, IEE Proceedings I
Conference_Location :
10/1/1982 12:00:00 AM
DOI :
10.1049/ip-i-1.1982.0044
