DocumentCode :
949836
Title :
Total multimode reflection at facets of planar high-contrast optical waveguides
Author :
Hammer, Manfred ; van Groesen, E.
Author_Institution :
Fac. of Math. Sci., Twente Univ., Enschede, Netherlands
Volume :
20
Issue :
8
fYear :
2002
fDate :
8/1/2002 12:00:00 AM
Firstpage :
1549
Lastpage :
1555
Abstract :
Based on rigorous mode expansion simulations, we consider the problem of guided light reflection at rectangular end facets of planar dielectric waveguides. Emphasis is on multimode structures with high refractive index contrast and on configurations that show a high reflectivity. Given the matrix of reflection coefficients for the guided fields, one can compute the maximum power reflectance for an incident mode superposition. While even for a substantial refractive index contrast across the facet the maximum reflected power for a single incoming mode is always moderate, the reflectivity may rise to a level that justifies the attribute total if one considers specific superpositions of at least two guided modes. The paper shows the results of numerical experiments for two series of symmetrical and nonsymmetrical waveguides and identifies conditions on the facet geometry and the exciting field, which are prerequisites for the full reflection effect.
Keywords :
microcavities; modal analysis; optical planar waveguides; optical waveguide theory; reflectivity; refractive index; exciting field; facet geometry; facets; full reflection effect; guided light reflection; high reflectivity configurations; high refractive index contrast; incident mode superposition; maximum power reflectance; maximum reflected power; microresonator cavities; mode expansion simulations; multimode structures; nonsymmetrical waveguides; numerical experiments; planar dielectric waveguides; planar high-contrast optical waveguides; rectangular end facets; reflection coefficients matrix; reflectivity; refractive index contrast; symmetrical waveguides; total multimode reflection; Computational modeling; Dielectrics; Optical planar waveguides; Optical reflection; Optical refraction; Optical variables control; Optical waveguides; Planar waveguides; Reflectivity; Refractive index;
fLanguage :
English
Journal_Title :
Lightwave Technology, Journal of
Publisher :
ieee
ISSN :
0733-8724
Type :
jour
DOI :
10.1109/JLT.2002.800302
Filename :
1058168
Link To Document :
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