Difference-frequency generation with quantum-limited efficiency in
  triply-resonant nonlinear cavities

Abraham; Alejandro W. Rodriguez; Andronico; Armstrong; Ashkin; Avetisyan; Baumgartner; Berger; Bieler; Bravo-Abad; Deotare; Dumeige; Fejer; Felber; Giordmaine; Hamam; Hashemi; Ian B. Burgess; Imeshev; Jha; Jorge Bravo-Abad; Liscidini; Maes; Marko Lončar; Matsko; McCutcheon; Morozov; Murray W. McCutcheon; Myers; Notomi; Ou; Parini; Paschotta; Rodriguez; Saltiel; Soljacic; Steven G. Johnson; Suh; Vodopyanov; Wu; Yinan Zhang

research

Difference-frequency generation with quantum-limited efficiency in triply-resonant nonlinear cavities

Authors: Abraham
Alejandro W. Rodriguez
Andronico
Armstrong
Ashkin
Avetisyan
Baumgartner
Berger
Bieler
Bravo-Abad
Deotare
Dumeige
Fejer
Felber
Giordmaine
Hamam
Hashemi
Ian B. Burgess
Imeshev
Jha
Jorge Bravo-Abad
Liscidini
Maes
Marko Lončar
Matsko
McCutcheon
Morozov
Murray W. McCutcheon
Myers
Notomi
Ou
Parini
Paschotta
Rodriguez
Saltiel
Soljacic
Steven G. Johnson
Suh
Vodopyanov
Wu
Yinan Zhang
Publication date: 23 March 2009
Publisher: 'The Optical Society'
Doi

Abstract

We present a comprehensive study of second-order nonlinear difference frequency generation in triply resonant cavities using a theoretical framework based on coupled-mode theory. We show that optimal quantum-limited conversion efficiency can be achieved at any pump power when the powers at the pump and idler frequencies satisfy a critical relationship. We demonstrate the existence of a broad parameter range in which all triply-resonant DFG processes exhibit monostable conversion. We also demonstrate the existence of a geometry-dependent bistable region.Comment: 10 pages, 3 figure

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