A method of operating a laser to obtain an output pulse having a single wavelength, comprises inducing an intracavity loss into a laser resonator having an amount that prevents oscillation during a time that energy from the pump source is being stored in the gain medium. Gain is built up in the gain
A method of operating a laser to obtain an output pulse having a single wavelength, comprises inducing an intracavity loss into a laser resonator having an amount that prevents oscillation during a time that energy from the pump source is being stored in the gain medium. Gain is built up in the gain medium with energy from the pump source until formation of a single-frequency relaxation oscillation pulse in the resonator. Upon detection of the onset of the relaxation oscillation pulse, the intracavity loss is reduced, such as by Q-switching, so that the built-up gain stored in the gain medium is output from the resonator in the form of an output pulse at a single frequency. An electronically controllable output coupler is controlled to affect output pulse characteristics. The laser acts a master oscillator in a master oscillator power amplifier configuration. The laser is used for laser peening.
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1. A method for laser shock peening surfaces of work pieces, comprising: producing a sequence of seed pulses having a single wavelength using a laser oscillator, including an output coupler comprising a polarizing beam splitter and a polarization rotation element in the cavity, including using the p
1. A method for laser shock peening surfaces of work pieces, comprising: producing a sequence of seed pulses having a single wavelength using a laser oscillator, including an output coupler comprising a polarizing beam splitter and a polarization rotation element in the cavity, including using the polarization rotation element to change the reflectivity of the output coupler in response to build up of a relaxation oscillation pulse, and to output the seed pulses, the seed pulses having an amplitude that varies less than 1% over at least one million pulses of sequential operation in a production environment and having a pulse width that varies less than 1% over at least one million pulses of sequential operation in a production environment;supplying the sequence of seed pulses to a laser amplifier to induce a sequence of higher energy output pulses having said single frequency and having an energy per pulse in a range from about 10 to about 100 joules per pulse; andpositioning said work pieces in cooperation with said output pulses to peen target regions on said surfaces. 2. A method for laser shock peening surfaces of work pieces, comprising: producing a sequence of seed pulses having a single wavelength using a laser oscillator with a variable reflectivity output coupler, including varying the reflectivity of the output coupler during build up of the seed pulses, the seed pulses having substantially constant amplitude and pulse width;supplying the sequence of seed pulses to a laser amplifier to induce a sequence of higher energy output pulses having said single frequency; andpositioning said work pieces in cooperation with said output pulses to peen target regions on said surfaces. 3. The method of claim 2, wherein said sequence of seed pulses has an amplitude with less than 5% variation during said positioning to peen the target regions on said surfaces. 4. The method of claim 2, wherein said sequence of seed pulses has pulse width with less than 5% variation during said positioning to peen the target regions on said surfaces. 5. The method of claim 2, wherein said sequence of seed pulses has an amplitude with about 1%, or less, variation during said positioning to peen the target regions on said surfaces. 6. The method of claim 2, wherein said sequence of seed pulses has pulse width with about 1%, or less, variation during said positioning to peen the target regions on a plurality of work pieces. 7. The method of claim 2, wherein said sequence of seed pulses has a repetition rate of greater than more than one pulse per second, and maintains said substantially constant amplitude and pulse width of a source of the seed pulses without adjusting optical parameters over a significant interval, during which a plurality of work pieces is peened in a production environment. 8. The method of claim 2, including maintaining said substantially constant amplitude and pulse width without adjusting optical parameters of a source of the seed pulses, over more than three days of use on a plurality of work pieces in a production environment. 9. The method of claim 2, wherein said sequence of seed pulses maintains said substantially constant amplitude and pulse width over at least one million pulses of sequential operation in a production environment. 10. The method of claim 2, wherein said sequence of higher power output pulses comprises pulses having a substantially constant energy per pulse in a range from about 10 to about 100 joules per pulse over at least one million pulses of sequential operation in a production environment. 11. The method of claim 2, wherein said sequence of higher power output pulses comprises pulses having a substantially constant pulse width in a range from about 20 to 30 nanoseconds over at least one million pulses of sequential operation in a production environment. 12. The method of claim 2, wherein said sequence of higher power output pulses comprises pulses having a substantially constant energy per pulse in a range from about 10 to about 100 joules per pulse and a substantially constant pulse width in a range from about 20 to 30 nanoseconds during use without operator intervention for a significant interval in a production environment. 13. The method of claim 2, wherein said sequence of higher power output pulses comprises pulses having a substantially constant energy per pulse in a range from about 10 to about 100 joules per pulse and a substantially constant pulse width in a range from about 20 to 30 nanoseconds during use for at least 3 days in a production environment. 14. The method of claim 2, wherein said laser oscillator includes a resonator, a gain medium positioned inside the resonator and a pump source and said producing includes; inducing an intracavity loss into the resonator, the loss being an amount that prevents oscillation during a time that energy from the pump source is being stored in the gain medium;building up gain with energy from the pump source in the gain medium until formation of a single-frequency relaxation oscillation pulse in the resonator; andreducing the intracavity loss induced in the resonator upon the detection of the relaxation pulse so that built-up gain stored in the gain medium is output from the resonator in the form of the output pulse.
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