Title Nuolatinai kaupinamų regeneracinių lazerinių stiprintuvų dinamika /
Translation of Title Dynamics of continuously pumped regenerative laser amplifiers.
Authors Grishin, Mikhail
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Pages 31
Keywords [eng] regenerative amplifier ; laser dynamics ; laser solid-state ; ultra-short pulses ; laser stability
Abstract [eng] This thesis presents a detailed study of continuously pumped regenerative amplifiers based on long-relaxation-time laser media. The goal of the research was to develop a general pattern of complex dynamics peculiar to such systems at high repetition rates and to find a way to improve performance characteristics affected by instabilities. Basic parameters of the optimally coupled regenerative amplifier operating in stable regime were derived in analytical form. They include optimum initial and final gains, the maximum output pulse energy, the power dissipation, the multi-pass B-integral and the roundtrip number providing the maximum output energy. A comprehensive pattern of existing dynamic regimes (stable, quasi-periodic and chaotic) was represented in space of controlling parameters. It has been found that the space of unstable operation decreases as the seed pulse energy increases. A method of stability diagrams, which forms a systematic approach to the optimization of regenerative amplification dynamics and in particular allows one to determine the seed pulse level sufficient to maintain the operation stable, has been developed. Performance characteristics were determined in the critical range of repetition rates, where instabilities are pronounced at the most and analytical solutions are unavailable. The experiments, carried out using the diode pumped picosecond Nd:YVO4 laser system, exhibited a good agreement with theoretical inferences. It has been demonstrated that increase in the seed pulse energy reduces the critical range of repetition rates and thus allows the system capabilities to be exploited to full extent.
Type Summaries of doctoral thesis
Language Lithuanian
Publication date 2011