Han Chi scite author profile

We demonstrate the generation of 1.1 J pulses of picosecond duration at 1 kHz repetition rate (1.1 kW average power) from a diode-pumped chirped pulse amplification Yb:YAG laser. The laser employs cryogenically cooled amplifiers to generate λ = 1030 n m pulses with average power of up to 1.26 kW prior to compression with excellent beam quality. Pulses are compressed to 4.5 ps duration with 90% efficiency. This compact picosecond laser will enable a variety of applications that require high energy ultrashort pulses at kilohertz repetition rates.

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Scaling diode-pumped, high energy picosecond lasers to kilowatt average powers

Reagan

Baumgarten

Jankowska

et al. 2018

High Pow Laser Sci Eng

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Recent results in the development of diode-driven high energy, high repetition rate, picosecond lasers, including the demonstration of a cryogenic Yb:YAG active mirror amplifier that produces 1.5 J pulses at 500 Hz repetition rate (0.75 kW average power) are reviewed. These pulses are compressed resulting in the generation of ${\sim}5~\text{ps}$ duration, 1 J pulses with 0.5 kW average power. A full characterization of this high power cryogenic amplifier, including at-wavelength interferometry of the active region under ${>}1~\text{kW}$ average power pump conditions, is presented. An initial demonstration of operation at 1 kW average power (1 J, 1 kHz) is reported.

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Nonlinearity optimization of dissipative-soliton fiber laser for generation of pulses with 350 kW peak power

Chi

Liu

Song

et al. 2018

High Pow Laser Sci Eng

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We demonstrate a nonlinearity optimization method by altering distribution of passive fibers in a dissipative-soliton mode-locked fiber laser to level up output parameters. In the numerical simulation, we found that the passive fiber segment after gain fiber characterizes the highest average B-integral among fiber segments. By reducing the length of this fiber section and keeping the total passive fiber length as constant, the output pulse energy can be effectively scaled up while maintaining a short dechirped pulse duration, resulting in boosting peak power. With this method, 37-nJ pulses are generated from a dissipative-soliton mode-locked cladding pumped ytterbium-doped single-mode fiber laser in the experiment. The pulse can be dechirped to 66 fs with 350 kW peak power. Moreover, the pulse pedestal is suppressed by a vector-dispersion compressor.

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In Situ 3-D Temperature Mapping of High Average Power Cryogenic Laser Amplifiers

Chi

Dehne

Baumgarten

et al. 2018

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In situ 3-D temperature mapping of high average power cryogenic laser amplifiers

et al. 2018

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Heat generation is a key obstacle to scaling high energy solid-state lasers to the multi-kilowatt average powers required for several key applications. We demonstrate an accurate, in situ, noninvasive optical technique to that makes three-dimensional (3-D) temperature maps within cryogenic amplifiers operating at high average power. The temperature is determined by analyzing the fluorescence spectra with a neural network function. The accuracy of the technique relies on a calibration that does not depend on simulations. Results are presented for a cryogenic Yb:YAG active mirror laser amplifier operating at different pump conditions. The technique is applicable to other solid-state lasers materials.

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Han Chi

1.1 J Yb:YAG picosecond laser at 1 kHz repetition rate

Scaling diode-pumped, high energy picosecond lasers to kilowatt average powers

Nonlinearity optimization of dissipative-soliton fiber laser for generation of pulses with 350 kW peak power

In Situ 3-D Temperature Mapping of High Average Power Cryogenic Laser Amplifiers

In situ 3-D temperature mapping of high average power cryogenic laser amplifiers

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