Title :
Intensity spiral patterns in a semiconductor microresonator
Author :
Larionova, Ye. ; Egorov, O. ; Cabrera-Granado, E. ; Esteban-Martin, A. ; Weiss, C.O.
Author_Institution :
Inst. fur Festkorpertheorie und Theor. Opt., Friedrich-Schiller-Univ., Jena, Germany
Abstract :
This paper shows intensity spiral pattern existence in a semiconductor microresonator with relaxed requirements, namely, both the intensity- and the phase structure of the exciting light field imposed externally, support stable amplitude spiral patterns. In simulations, a phenomenological semiconductor resonator model with spiral initial conditions and a wide Gaussian-shaped input beam is used. In a wide range of wavelengths corresponding to dispersive and absorptive nonlinearities, intensity spirals are found stable, qualitatively similar to the experimental structures.
Keywords :
integrated optics; micro-optics; microcavities; nonlinear optics; optical dispersion; semiconductor device models; Gaussian-shaped input beam; absorptive nonlinearities; amplitude spiral patterns; dispersive nonlinearities; intensity spiral patterns; intensity spirals; phenomenological semiconductor resonator model; semiconductor microresonator; stable spiral patterns; Chemical processes; Hydrodynamics; Lenses; Lighting; Microcavities; Nonlinear optics; Optical pumping; Optical resonators; Optical vortices; Spirals;
Conference_Titel :
Quantum Electronics Conference, 2005. EQEC '05. European
Print_ISBN :
0-7803-8973-5
DOI :
10.1109/EQEC.2005.1567227
