Optical emission spectrometric diagnosis of laser-induced plasma and shock front produced at moderate pressure

Xin Peng; Minsun Chen; Hao Liu

doi:10.3788/COL202321.023001

Journals >Chinese Optics Letters >Volume 21 >Issue 2 >Page 023001 > Article

Chinese Optics Letters
Vol. 21, Issue 2, 023001 (2023)

Optical emission spectrometric diagnosis of laser-induced plasma and shock front produced at moderate pressure

Xin Peng¹, Minsun Chen^1、2, and Hao Liu^1、2、*

Author Affiliations

¹College of Advanced Interdisciplinary Studies, National University of Defense Technology, Changsha 410073, China

²State Key Laboratory of Pulsed Power Laser Technology, Changsha 410073, China

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DOI: 10.3788/COL202321.023001 Cite this Article Set citation alerts

Xin Peng, Minsun Chen, Hao Liu. Optical emission spectrometric diagnosis of laser-induced plasma and shock front produced at moderate pressure[J]. Chinese Optics Letters, 2023, 21(2): 023001 Copy Citation Text

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Abstract

We present a non-contact optical investigation of laser-induced plasma at moderate Ar pressure ranging from 1 to 100 Pa. The significant shock front and spatial fractionation among the different charged ions are demonstrated at the pressure of 20 Pa. The collisions between Si IV ions and ambient Ar atoms generate distinct and excited Ar II ions, fresh Si III ions, and electrons at the dense layer. The electron density peaks at the position of the shock front, indicating that the collision that yields electrons is dominant over the recombination process in the region of the shock layer and its immediate vicinity.

Keywords

collision and recombination laser ablation moderate pressure shock wave front

z = {[\frac{75}{16 π} \frac{(γ - 1) {(γ + 1)}^{2}}{(3 γ - 1)}]}^{1 / 5} {(\frac{E}{ρ_{0}})}^{1 / 5} {(Δ t)}^{2 / 5},

(1)

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Si I^{*} (or Si IV) + Ar I \to Si {III}^{*} + Ar {II}^{*},

(2)

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Si {IV}^{*} + Ar I \to Si IV + Ar {II}^{*} + e^{-},

(3)

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Si {IV}^{*} + e^{-} \to Si {III}^{*} (or Si III) .

(4)

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Y (v, N_{e}, T_{e}) = \frac{1}{π} \frac{Δ v_{width} / 2}{{(Δ v_{width} / 2)}^{2} + {(v - v_{0} + Δ v_{shift})}^{2}} .

(5)

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Δ v_{width} = \frac{2 w c}{λ_{0}^{2}} \frac{N_{e}}{10^{22}} [1 + \frac{7 a}{4} {(\frac{N_{e}}{10^{22}})}^{\frac{1}{4}} (1 - \frac{3}{4} N_{D}^{- \frac{1}{3}})],

(6)

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Δ v_{shift} = \frac{d c}{λ_{0}^{2}} \frac{N_{e}}{10^{22}} [1 \pm \frac{2 a w}{d} {(\frac{N_{e}}{10^{22}})}^{\frac{1}{4}} (1 - \frac{3}{4} N_{D}^{- \frac{1}{3}})],

(7)

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Xin Peng, Minsun Chen, Hao Liu. Optical emission spectrometric diagnosis of laser-induced plasma and shock front produced at moderate pressure[J]. Chinese Optics Letters, 2023, 21(2): 023001

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