Stability of Optical Frequency References Based on Acetylene-filled Kagome-structured Hollow Core Fiber

A. M. Jones; K. Knabe; JinKang Lim; R. Thapa; K. Tillman; F. Couny; P. S. Light; F. Benabid; B. R. Washburn; K. L. Corwin

doi:10.1364/FIO.2008.FWF7

Frontiers in Optics 2008/Laser Science XXIV/Plasmonics and Metamaterials/Optical Fabrication and Testing
OSA Technical Digest (CD) (Optica Publishing Group, 2008),
paper FWF7
•https://doi.org/10.1364/FIO.2008.FWF7

Stability of Optical Frequency References Based on Acetylene-filled Kagome-structured Hollow Core Fiber

A. M. Jones, K. Knabe, JinKang Lim, R. Thapa, K. Tillman, F. Couny, P. S. Light, F. Benabid, B. R. Washburn, and K. L. Corwin

Frontiers in Optics 2008

Rochester, New York United States
19–23 October 2008
ISBN: 978-1-55752-861-2

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Photonic Crystal Fibers (FWF)

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A. M. Jones, K. Knabe, J. Lim, R. Thapa, K. Tillman, F. Couny, P. S. Light, F. Benabid, B. R. Washburn, and K. L. Corwin, "Stability of Optical Frequency References Based on Acetylene-filled Kagome-structured Hollow Core Fiber," in Frontiers in Optics 2008/Laser Science XXIV/Plasmonics and Metamaterials/Optical Fabrication and Testing, OSA Technical Digest (CD) (Optica Publishing Group, 2008), paper FWF7.

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Abstract

A fiber laser at 1532 nm is stabilized to a sub-Doppler feature in acetylene inside hollow core kagome structured photonic crystal fiber. Short term stability is evaluated by beating against a Cr:forsterite laser-based frequency comb.

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