Designs of Nanostructured Materials made by Glancing Angle Deposition for Improved Spectral Brightness of Solid-State Lasers

Jean-François Bisson; Gabriel Gallant; Koffi Amouzou; Kris Bulmer; Georges Bader

doi:10.1364/CLEOPR.2018.Th2A.7

CLEO Pacific Rim Conference 2018
OSA Technical Digest (Optica Publishing Group, 2018),
paper Th2A.7
•https://doi.org/10.1364/CLEOPR.2018.Th2A.7

Designs of Nanostructured Materials made by Glancing Angle Deposition for Improved Spectral Brightness of Solid-State Lasers

Jean-François Bisson, Gabriel Gallant, Koffi Amouzou, Kris Bulmer, and Georges Bader

Conference on Lasers and Electro-Optics/Pacific Rim 2018

Hong Kong China
29 July–3 August 2018
ISBN: 978-1-943580-45-3

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Novel Laser Sources II (Th2A)

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J. Bisson, G. Gallant, K. Amouzou, K. Bulmer, and G. Bader, "Designs of Nanostructured Materials made by Glancing Angle Deposition for Improved Spectral Brightness of Solid-State Lasers," in CLEO Pacific Rim Conference 2018, OSA Technical Digest (Optica Publishing Group, 2018), paper Th2A.7.

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Abstract

We present the design and experimental characterization of nanostructured laser mirrors aimed at suppressing spatial hole burning (SHB) of a standing wave resonator. The dielectric Bragg mirrors were made by GLancing Angle Physical Vapor Deposition. Two designs are presented. First, helically-nanostructured materials that produce circular Bragg resonance at the wavelength matching the helical period. Second, thick anisotropic coatings deposited on ordinary mirrors, which act as half-wave plates to produce twisted mode laser operation. Both designs enable single longitudinal mode laser operation by suppressing SHB.

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