Activation of a Spatial, Temporal, and Spectrally Sculpted Front End for the Mercury Laser

J. P. Armstrong; A. J. Bayramian; R. J. Beach; R. Campbell; J. Dawson; C.A. Ebbers; B.L. Freitas; B. Kent; R. Lanning; S. Telford; E. Utterback

doi:10.1364/ASSP.2007.MB1

Advanced Solid-State Photonics
OSA Technical Digest Series (CD) (Optica Publishing Group, 2007),
paper MB1
•https://doi.org/10.1364/ASSP.2007.MB1

Activation of a Spatial, Temporal, and Spectrally Sculpted Front End for the Mercury Laser

J. P. Armstrong, A. J. Bayramian, R. J. Beach, R. Campbell, J. Dawson, C.A. Ebbers, B.L. Freitas, B. Kent, R. Lanning, S. Telford, and E. Utterback

Advanced Solid-State Photonics 2007

Vancouver Canada
28–31 January 2007
ISBN: 1-55752-829-2

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Poster Session I (MB)

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J. P. Armstrong, A. J. Bayramian, R. J. Beach, R. Campbell, J. Dawson, C. A. Ebbers, B. L. Freitas, B. Kent, R. Lanning, S. Telford, and E. Utterback, "Activation of a Spatial, Temporal, and Spectrally Sculpted Front End for the Mercury Laser," in Advanced Solid-State Photonics, OSA Technical Digest Series (CD) (Optica Publishing Group, 2007), paper MB1.

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Abstract

We have produced over 500 mJ using a hybrid fiber-based master-oscillator system coupled with a Yb:S-FAP power amplifier. This system is designed with spatial, temporal, and spectral sculpting enabling broadband amplification correctable for gain narrowing.

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