Title :
Wavelength scale modelling of absorbing and amplifying reflective microresonator by the method of single expression
Author :
Baghdasaryan, Hovik V. ; Knyazyan, Tamara M. ; Mankulov, Albert A.
Author_Institution :
Fiber Opt. Commun. Lab., State Eng. Univ. of Armenia, Yerevan, Armenia
Abstract :
To model a reflective microresonator, the advanced method of single expression (MSE) is used. Multilayer structures consisting of an absorbing (amplifying) layer located at some distance from a highly reflective metallic mirror are considered. For the metallic mirror, an optimal thickness providing high reflectivity and low loss in accordance with the Hagen-Rubens relation is suggested. For absorbing and amplifying microresonators, the corresponding reflection spectra, distributions of the electric field amplitude and power flow density across the structures are obtained. Resonant configurations for absorbing and amplifying reflective structures are defined.
Keywords :
amplification; cavity resonators; electrodynamics; light absorption; microcavities; mirrors; optical multilayers; Hagen-Rubens relation; absorbing layer; absorbing microresonators; absorbing reflective microresonator; amplifying layer; amplifying microresonators; amplifying reflective microresonator; electric field amplitude; electrodynamic models; metallic mirror; method of single expression; multilayer structures; power flow density; reflection spectra; resonant absorber; resonant light emitter; resonant-cavity light-emitting diodes; resonant-cavity-enhanced photodetectors; wavelength scale modelling; Absorption; Energy loss; Light emitting diodes; Load flow; Microcavities; Mirrors; Optical reflection; Reflectivity; Resonance; Silver;
Conference_Titel :
Transparent Optical Networks, 2004. Proceedings of 2004 6th International Conference on
Print_ISBN :
0-7803-8343-5
DOI :
10.1109/ICTON.2004.1360314
