Title :
Semiconductor mirror for optical noise suppression and dynamic dispersion compensation
Author :
Isomäki, Antti ; Vainionpää, Anne-Maria ; Lyytikäinen, Jari ; Okhotnikov, Oleg G.
Author_Institution :
Optoelectronics Res. Centre, Tampere Univ. of Technol., Finland
Abstract :
We report on a monolithic Gires-Tournois semiconductor interferometer used for both suppression of low-intensity spontaneous noise in a high-power fiber amplifier and to generate a tunable delay. The potential of the noise suppression technique was demonstrated using a two-stage amplifier system. Gain improvement by a factor of five illustrates the capability of semiconductor gates to greatly enhance energy extraction from optical amplifiers. We demonstrate also that controllable saturable absorption in an optically pumped multiple-quantum-well semiconductor reflector provides promising means for rapidly changing the group delay of the reflector and represents a new form of dynamic dispersion compensator.
Keywords :
interference suppression; laser mirrors; laser noise; light interferometers; optical dispersion; optical fibre amplifiers; optical pumping; optical saturable absorption; semiconductor quantum wells; superradiance; ASE noise; controllable saturable absorption; dynamic dispersion compensation; dynamic dispersion compensator; energy extraction; gain improvement; group delay; high-power fiber amplifier; low-intensity spontaneous noise suppression; monolithic Gires-Tournois semiconductor interferometer; monolithic vertical-cavity MQW structure; optical amplifiers; optical noise suppression; optically pumped multiple-quantum-well semiconductor reflector; reflector; semiconductor gates; semiconductor mirror; tunable delay; two-stage amplifier system; Delay; Mirrors; Noise generators; Optical fiber amplifiers; Optical interferometry; Optical noise; Optical pumping; Semiconductor device noise; Semiconductor optical amplifiers; Stimulated emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2003.818285
