Dispersionless tunneling of slow light in antisymmetric photonic crystal couplers
Date
2008-01-14
Authors
Ha, Sangwoo
Dossou, Kokou B
Botten, Lindsay
Lavrinenko, Andrei
Chigrin, Dmitry N
Sukhorukov, Andrey
Kivshar, Yuri
Journal Title
Journal ISSN
Volume Title
Publisher
Optical Society of America
Abstract
We suggest a novel and general approach to the design of
photonic-crystal directional couplers operating in the slow-light regime.
We predict, based on a general symmetry analysis, that robust tunneling of
slow-light pulses is possible between antisymmetrically coupled photonic
crystal waveguides. We demonstrate, through Bloch mode frequencydomain
and finite-difference time-domain (FDTD) simulations that, for
all pulses with strongly reduced group velocities at the photonic band-gap
edge, complete switching occurs at a fixed coupling length of just a few unit
cells of the photonic crystal.
Description
Keywords
Photonic crystals, Waveguides, Photonic integrated circuits
Citation
Optics Express 16.2 (2008): 1104-1114
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Source
Optics Express
Type
Journal article
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