Title :
Simulation of terahertz Doppler wavelength shifting of infrared optical pulses in an active semiconductor layer
Author :
Scherbatko, Igor V. ; Nerukh, Alexander G. ; Iezekiel, Stavros
Author_Institution :
Tech. Univ. of Radio Electron., Kharkov State Univ., Ukraine
fDate :
4/1/2000 12:00:00 AM
Abstract :
In this paper, a time-domain model of wavelength shifting in a semiconductor layer with a constant stimulated gain level and moving Bragg grating of permittivity is used to investigate Doppler conversion of an infrared (f0=200 THz) ultrashort (0.4-ps width) optical pulse. Simulations of the electromagnetic-field evolution show that the high drift velocity of carriers in InGaAsP can produce at least 1-THz conversion span. The optical power of the converted pulse can be as much as 20% of the power in the initial pulse. The backscattered pulses and pulses transmitted through the semiconductor layer depend dramatically on the permittivity modulation depth and length of the layer. It has been demonstrated that the length of the semiconductor layer can be optimized to produce strong converted pulses of short duration
Keywords :
Bragg gratings; Doppler effect; high-speed optical techniques; optical frequency conversion; 0.4 ps; 200 THz; active semiconductor layer; carrier drift velocity; electromagnetic field; infrared ultrashort optical pulse; moving Bragg grating; permittivity modulation; stimulated gain; terahertz Doppler wavelength shifting; time-domain model; Chirp modulation; Distributed feedback devices; Laser excitation; Laser feedback; Optical pulses; Optical wavelength conversion; Permittivity; Pulse modulation; Pump lasers; Waveguide lasers;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
