Band splitting and Modal Dispersion induced by Symmetry braking in
  Coupled-Resonator Slow-Light Waveguide Structures

Bigelow; Boriskina; Boriskina; Boriskina; Chung; Deych; Heebner; Heebner; J. Scheuer; Khurgin; Kippenberg; Liu; M. Shtaif; Melloni; Nakagawa; Phillips; Poon; Ryu; Scheuer; Scheuer; Schwelb; Smotrova; Steinberg; Steinberg; Turukhin; Weiss; Winzer; Yanik; Yanik; Yariv

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Band splitting and Modal Dispersion induced by Symmetry braking in Coupled-Resonator Slow-Light Waveguide Structures

Authors: Bigelow
Boriskina
Boriskina
Boriskina
Chung
Deych
Heebner
Heebner
J. Scheuer
Khurgin
Kippenberg
Liu
M. Shtaif
Melloni
Nakagawa
Phillips
Poon
Ryu
Scheuer
Scheuer
Schwelb
Smotrova
Steinberg
Steinberg
Turukhin
Weiss
Winzer
Yanik
Yanik
Yariv
Publication date: 3 August 2009
Publisher: 'The Optical Society'
Doi

Abstract

We study the dispersion relations in slow-light waveguide structures consisting of coupled microdisk resonators. A group theoretical analysis of the symmetry properties of the propagating modes reveals an interesting phenomenon: The degeneracy of the CW and CCW rotating modes is removed, giving rise to two distinct transmission bands. This effect induces symmetry-based dispersion which may limit usable bandwidth of such structures. The properties of this band splitting and its impact on CROW performance for optical communications are studied in detail

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