Wei Guo scite author profile

Wei Guo

2Publications

3Citation Statements Received

42Citation Statements Given

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Space Engineering University

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Micro-impulse and plasma plume produced by irradiating aluminum target with nanosecond laser pulses in double-pulse scheme

Zhou

et al. 2022

Plasma Sci. Technol.

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The micro-impulse generated by ablating aluminum target in double-pulse laser bursts with different interpulse delays was investigated using the torsion pendulum. The plasma plume was simultaneously visualized using high-speed photography to analyze the coupling mechanism of the ablation impulse. The experiment was carried out using the pulsed laser with the pulse width of 8 ns and the wavelength of 1064 nm. The experimental results show that the impulse with an interpulse delay of 60 ns is roughly 60% higher compared to that with no delay between the two pulses when the energy of both laser pulses is 50 mJ. Therefore, the double-pulse schemes could enhance the ablation impulse under certain conditions. The reason is that the ablation of the first laser pulse changes the optical properties of the aluminum target surface increasing the absorptivity. However, the ablation impulse is reduced at the time delay of 20 ns when the energy of both laser pulses is 100 mJ or 150 mJ. It can be concluded that the plasma produced by ablating aluminum of the first pulse shields the second laser pulse. To summarize, the experimental results show that different delay time in double-pulse scheme has a significant effect on the ablation impulse. The study provides a reference for the optimization of the parameters when the laser ablation propulsion with double-pulse scheme is applied in the fields of space debris removal, laser ablation thruster, and so on.

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Damage characteristics of continuous-wave laser ablation triple-junction solar cells

Guo

Chang

et al. 2022

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The effect of laser irradiation on triple-junction GaAs cells studied via cell irradiation experiments was carried out using a continuous-wave laser with a wavelength of 808 nm. In the experiments, a thermal imaging system was used to measure the surface temperature of the cell, and the surface morphology of the irradiated cell was analyzed. The output performance of the irradiated cell was measured by a source meter, and the results show that the change rate of cell surface temperature increased with increasing laser power density. When the cell damage intensifies, the output characteristics of the cell gradually decay, and the cell loses its photoelectric effect.

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Wei Guo

Micro-impulse and plasma plume produced by irradiating aluminum target with nanosecond laser pulses in double-pulse scheme

Damage characteristics of continuous-wave laser ablation triple-junction solar cells

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