Scalable Coherent Combining of Kilowatt Fiber Amplifiers Into a 2.4-kW Beam

Scalable Coherent Combining of Kilowatt Fiber Amplifiers Into a 2.4-kW Beam

We demonstrate coherent beam combining of multiple Yb-doped non polarization-maintaining fiber amplifiers operating at individual power levels above 1 kW. A 2.4-kW, M 2 = 1.2 output beam was generated by combining three amplifiers with a diffractive optical element (DOE). A single low-power sample o...

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Veröffentlicht in:IEEE journal of selected topics in quantum electronics 2014-09, Vol.20 (5), p.174-181
Hauptverfasser: McNaught, Stuart J., Thielen, Peter A., Adams, Leah N., Ho, James G., Johnson, Adam M., Machan, Jason P., Rothenberg, Joshua E., Chun-Ching Shih, Shimabukuro, Daniel M., Wacks, Martin P., Weber, Mark E., Goodno, Gregory D.
Format: Artikel
Sprache:eng
Schlagworte:
Amplifiers
Beams (radiation)
Coherence
Coherent beam combining
Counting
Diffractive optical elements
Error signals
fiber lasers
Fibers
kilowatt laser sources
laser arrays
Laser beams
Loss measurement
Measurement by laser beam
Optical fiber amplifiers
Optical fiber devices
Optical fiber polarization
Quantum electronics
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Zusammenfassung:We demonstrate coherent beam combining of multiple Yb-doped non polarization-maintaining fiber amplifiers operating at individual power levels above 1 kW. A 2.4-kW, M 2 = 1.2 output beam was generated by combining three amplifiers with a diffractive optical element (DOE). A single low-power sample of the combined output beam provided error signals for active phase and polarization locking of all three fibers. The beam combining efficiency of 80% was nearly constant with amplifier power, indicating the absence of significant thermal or nonlinear effects. Modeling anchored by precise measurements of the beam characteristics indicates potential for this architecture to scale to higher fiber counts, higher combining efficiency, and higher power.
ISSN:1077-260X
1558-4542
DOI:10.1109/JSTQE.2013.2296771