Title :
Light propagation via coupled defects in photonic crystals
Author :
Iliew, R. ; Peschel, U. ; Etrich, C. ; Lederer, F.
Author_Institution :
Inst. fur Festkorperphys. und Theor. Optik, Friedrich-Schiller-Univ., Jena, Germany
Abstract :
Summary form only given. Low-loss waveguiding around sharp bends is a key task in microoptics. A coupled-defect waveguide is able to perform much better at sharp bends than a channel waveguide. It also can enhance considerably the efficiency of second harmonic generation due to the low effective group velocity. Coupled-defect optical waveguides are a superlattice or superstructure consisting of original and modified unit cells of the underlying photonic crystal. A tight-binding description of a chain of defects in a linear medium was derived in leading to a dispersion relation which is quadratic with respect to the frequency. Recently the validity of the tight-binding approximation of the defects in a two-dimensional superstructure was investigated by means of direct transmission calculations using a transfer-matrix method.
Keywords :
dispersion relations; matrix algebra; micro-optics; optical losses; optical waveguide theory; optical waveguides; photonic crystals; tight-binding calculations; channel waveguide; coupled defects; coupled-defect waveguide; dispersion relation; light propagation; low effective group velocity; low-loss waveguiding; microoptics; modified unit cells; photonic crystals; superlattice; superstructure; tight-binding approximation; tight-binding description; transfer-matrix method; two-dimensional superstructure; Matrices; Optical losses; Optical waveguide theory; Optical waveguides;
Conference_Titel :
Quantum Electronics and Laser Science Conference, 2002. QELS '02. Technical Digest. Summaries of Papers Presented at the
Conference_Location :
Long Beach, CA, USA
Print_ISBN :
1-55752-708-3
DOI :
10.1109/QELS.2002.1031117
