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Components for Monolithic Fiber Chirped Pulse Amplication Laser Systems.
[摘要] The first portion of this work develops techniques for generating femtosecond-pulsesfrom conventional fabry-perot laser diodes using nonlinear-spectral-broadening techniquesin Yb-doped positive dispersion fiber ampliers. The approach employed an injection-locked fabry-perot laser diode followed by two stages of nonlinear-spectralbroadening to generate sub-200fs pulses. This thesis demonstrated that a 60psgain-switched fabry-perot laser-diode can be injection-locked to generate a single-longitudinal-mode pulse and compressed by nonlinear spectral broadening to 4ps.Two problems have been identified that must be resolved before moving forward with this approach. First, gain-switched pulses from a standard diode-laser have a number of characteristics not well suited for producing clean self-phase-modulation broadenedpulses, such as an asymmetric temporal shape, which has a long pulse tail. Second, though parabolic pulse formation occurs for any arbitrary temporal input pulse profile, deviation from the optimum parabolic input results in extensively spectrally modulated self-phase-modulation-broadened pulses. In conclusion,the approach of generating self-phase-modulation-broadened pulses from pulsed laser diodes has to be modified from the initial approach explored in this thesis.The first Yb-doped chirally-coupled-core fiber based systems are demonstrated and characterized in the second portion of this work. Robust single-mode performance independent of excitation or any other external mode management techniques havebeen demonstrated in Yb-doped chirally-coupled-core fibers. Gain and power efficiency characteristics are not compromised in any way in this novel fiber structure up to the 87W maximum power achieved. Both the small signal gain at 1064nm of 30.3dB, and the wavelength dependence of the small signal gain were comparableto currently deployed large-mode-area-fiber technology. The efficiencies of the laserand amplifier were measured to be 75% and 54% respectively.With the inherent design tradeoff between the fundamental mode loss and higher order mode suppression, loss effects on system efficiency in different confgurations were investigated. From these investigations it was seen that the slope-effciency depends only on the total loss of the active fiber, and that when loss is present, thecounter-propagating configuration has substantial advantages over the co-propagating case. In this thesis chirally-coupled-core fiber as the technological basis for the next generation of monolithic high power fiber laser systems has been established.
[发布日期]  [发布机构] University of Michigan
[效力级别] Fiber Amplifier [学科分类] 
[关键词] Chirally Coupled Core;Fiber Amplifier;Fiber Laser;Power Scaling;Laser Diode Pulse Compression;Parabolic Pulse;Physics;Science;Physics [时效性] 
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