Title :
Stable resonator solitons in optically pumped semiconductor microresonators
Author :
Taranenko, V.B. ; Weiss, C.O.
Author_Institution :
Phys. Tech. Bundesanstalt, Braunschweig, Germany
Abstract :
This study shows experimentally and numerically that optical pumping of the semiconductor microresonator up to its lasing threshold increases the soliton stability range and reduces the light intensity necessary to sustain the solitons thereby diminishing destabilizing thermal effect. This paper also discusses the stability of the resonator solitons depending on the nonlinear material response (absorptive/dispersive) when changing the driving field wavelength and intensity, the resonator detuning, and finally the carrier population inversion when using optical pumping.
Keywords :
laser cavity resonators; microcavities; optical pumping; optical solitons; population inversion; semiconductor lasers; carrier population inversion; destabilizing thermal effect; lasing threshold; nonlinear material response; optical pumping; resonator detuning; resonator solitons; semiconductor microresonators; soliton stability; stable resonator; Laser beams; Microcavities; Optical beams; Optical bistability; Optical pumping; Optical resonators; Optical solitons; Resonance; Stability; Switches;
Conference_Titel :
Quantum Electronics Conference, 2003. EQEC '03. European
Print_ISBN :
0-7803-7733-8
DOI :
10.1109/EQEC.2003.1314065
