Time-resolved measurements of electron density and plasma diameter of 1 kHz femtosecond laser filament in air

Hengyi Zheng; Hengyi Zheng; Fukang Yin; Fukang Yin; Tie-Jun Wang; Tie-Jun Wang; Yaoxiang Liu; Yingxia Wei; Bin Zhu; Kainan Zhou; Yuxin Leng; Yuxin Leng

doi:10.1364/COL.20.093201

Chinese Optics Letters
Vol. 20,
Issue 9,
pp. 093201-
(2022)
•https://doi.org/10.1364/COL.20.093201

Time-resolved measurements of electron density and plasma diameter of 1 kHz femtosecond laser filament in air

Hengyi Zheng, Fukang Yin, Tie-Jun Wang, Yaoxiang Liu, Yingxia Wei, Bin Zhu, Kainan Zhou, and Yuxin Leng

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Hengyi Zheng, Fukang Yin, Tie-Jun Wang, Yaoxiang Liu, Yingxia Wei, Bin Zhu, Kainan Zhou, and Yuxin Leng, "Time-resolved measurements of electron density and plasma diameter of 1 kHz femtosecond laser filament in air," Chin. Opt. Lett. 20, 093201- (2022)

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Abstract

The temporal evolutions of electron density and plasma diameter of 1 kHz femtosecond laser filament in air are experimentally investigated by utilizing a pump-probe longitudinal diffraction method. A model based on scalar diffraction theory is proposed to extract the spatial phase shift of the probe pulse from the diffraction patterns by the laser air plasma channel. The hydrodynamic effect on plasma evolution at 1 kHz filament is included and analyzed. The measured initial peak electron density of ∼10¹⁸ cm⁻³ in our experimental conditions decays rapidly by nearly two orders of magnitude within 200 ps. Moreover, the plasma channel size rises from 90 µm to 120 µm as the delay time increases. The experimental observation is in agreement with numerical simulation results by solving the rate equations of the charged particles.

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Chinese Optics Letters