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Power scaling of a hybrid microstructured Yb-doped fiber amplifier

Hybrid microstructured fibers, utilizing both air holes and high index cladding structures, provide important advantages over conventional fiber including robust fundamental mode operation with large core diameters (>30 mu m) and spectral filtering (i.e. amplified spontaneous emission and Raman suppression). This work investigates the capabilities of a hybrid fiber designed to suppress stimulated Brillouin scattering (SBS) and modal instability (MI) by characterizing these effects in a counter-pumped amplifier configuration as well as interrogating SBS using a pump-probe Brillouin gain spectrum (BGS) diagnostic suite. The fiber has a 35 mu m annularly gain tailored core, the center doped with Yb and the second annulus comprised of un-doped fused silica, designed to optimize gain in the fundamental mode while limiting gain to higher order modes. A narrow-linewidth seed was amplified to an MI-limited 820 W, with near-diffraction-limited beam quality, an effective linewidth similar to 1 GHz, and a pump conversion efficiency of 78%. Via a BGS pump-probe measurement system a high resolution spectra and corresponding gain coefficient were obtained. The primary gain peak, corresponding to the Yb doped region of the core, occurred at 15.9 GHz and had a gain coefficient of 1.92x10(-11) m/W. A much weaker BGS response, due to the pure silica annulus, occurred at 16.3 GHz. This result demonstrates the feasibility of power scaling hybrid microstructured fiber amplifiers

Identiferoai:union.ndltd.org:arizona.edu/oai:arizona.openrepository.com:10150/625057
Date22 February 2017
CreatorsMart, Cody, Pulford, Benjamin, Ward, Benjamin, Dajani, Iyad, Ehrenreich, Thomas, Anderson, Brian, Kieu, Khanh, Sanchez, Tony
ContributorsUniv Arizona, Coll Opt Sci, Air Force Research Lab. (United States), Air Force Research Lab. (United States), U.S. Air Force Academy (United States), Air Force Research Lab. (United States), Air Force Research Lab. (United States), Air Force Research Lab. (United States), College of Optical Sciences, The Univ. of Arizona (United States), Air Force Research Lab. (United States)
PublisherSPIE-INT SOC OPTICAL ENGINEERING
Source SetsUniversity of Arizona
LanguageEnglish
Detected LanguageEnglish
TypeArticle
Rights© 2017 SPIE
Relationhttp://proceedings.spiedigitallibrary.org/proceeding.aspx?doi=10.1117/12.2249863

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