Semi-guiding high-aspect-ratio core (SHARC) fiber amplifiers with ultra-large core area for single-mode kW operation in a compact coilable package
| Autor: | David A. Rockwell, Vladimir V. Shkunov, John R. Marciante |
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| Rok vydání: | 2012 |
| Předmět: |
Physics
Mode volume Multi-mode optical fiber Miniaturization Amplifiers Electronic business.industry Lasers Single-mode optical fiber Polarization-maintaining optical fiber Equipment Design Graded-index fiber Atomic and Molecular Physics and Optics Equipment Failure Analysis Mode field diameter Optics Energy Transfer Fiber Optic Technology Radiation mode business Plastic optical fiber |
| Zdroj: | Optics express. 20(18) |
| ISSN: | 1094-4087 |
| Popis: | A new class of optical fiber, the SHARC fiber, is analyzed in a high-power fiber amplifier geometry using the gain-filtering properties of confined-gain dopants. The high-aspect-ratio (~30:1) rectangular core allows mode-area scaling well beyond 10,000 μm2, which is critical to high-pulse-energy or narrow-linewidth high-power fiber amplifiers. While SHARC fibers offer modally dependent edge loss at the wide "semi-guiding" edge of the waveguide, the inclusion of gain filtering adds further modal discrimination arising from the variation of the spatial overlap of the gain with the various modes. Both methods are geometric in form, such that the combination provides nearly unlimited scalability in mode area. Simulations show that for kW-class fiber amplifiers, only the fundamental mode experiences net gain (15 dB), resulting in outstanding beam quality. Further, misalignment of the seed beam due to offset, magnification, and tilt are shown to result in a small (few percent) efficiency penalty while maintaining kW-level output with 99% of the power in the fundamental mode for all cases. |
| Databáze: | OpenAIRE |
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