Detail publikace
Bragg waveguide grating as a 1D photonic bandgap structure: COST 268 modelling task
ČTYROKÝ, J. HELFERT, S. PREGLA, R. BIENSTMAN, P. BAETS, R. RIDDER, R. STOFFER, R. KLAASSE, G. PETRÁČEK, J. LALANNE, P. HUGONIN, J. DE LA RUE, R.
Anglický název
Bragg waveguide grating as a 1D photonic bandgap structure: COST 268 modelling task
Typ
Článek recenzovaný mimo WoS a Scopus
Jazyk
en
Originální abstrakt
Modal reflection, transmission and loss of deeply etched Bragg waveguide gratings were modelled by six European laboratories using independently developed 2D numerical codes based on four different methods, with very good mutual agreement. It was found that (rather weak) material dispersion of the SiO2/Si3N4 system does not significantly affect the results. The existence of lossless Floquet-Bloch modes in deeply etched gratings was confirmed. Based on reliable numerical results, the physical origin of out-of-plane losses of 1D or 2D photonic bandgap structures in slab waveguides is briefly discussed.
Klíčová slova anglicky
Photonic bandgap structure, photonic crystal, optical waveguide modelling, waveguide grating
Vydáno
2002-05-01
ISSN
0306-8919
Časopis
Optical and quantum electronics
Ročník
34
Číslo
5/6
Strany od–do
455–
Počet stran
470
BIBTEX
@article{BUT41968,
author="Jiří {Čtyroký} and Stephan {Helfert} and Reinhold {Pregla} and Peter {Bienstman} and Roel {Baets} and René {Ridder} and Remco {Stoffer} and G. {Klaasse} and Jiří {Petráček} and Pierre {Lalanne} and Jean-P {Hugonin} and Richard {De La Rue}",
title="Bragg waveguide grating as a 1D photonic bandgap structure: COST 268 modelling task",
journal="Optical and quantum electronics",
year="2002",
volume="34",
number="5/6",
pages="470",
issn="0306-8919"
}