Analysis of an induced Langmuir wave by ponderomotive forces and its applicability for plasma diagnostics

Gabriel M. Flores Alfaro; Mikhail N. Shneider; Alexandros Gerakis

doi:10.1063/5.0222168

Analysis of an induced Langmuir wave by ponderomotive forces and its applicability for plasma diagnostics

Gabriel M. Flores Alfaro, Mikhail N. Shneider, Alexandros Gerakis

Mechanical & Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We present a numerical study on the electron and ion density perturbation in low-temperature plasmas driven by the frequency detuning of two intense laser beams. Our study is performed in the hydrodynamic regime, which becomes applicable when the plasma grating period induced by the beating of the laser beams is greater than the Debye length and collective processes such as plasma oscillations can be excited. Our findings show a resonance in electron density perturbation as the frequency detuning approaches a value consistent with the Bohm-Gross dispersion relation in low- and high-pressure plasmas. We discuss the potential of this resonance as a diagnostic tool for precisely measuring electron temperature and density in low-temperature plasmas through coherent scattering.

Original language	English (US)
Journal	Physics of Plasmas
Volume	31
Issue number	9
DOIs	https://doi.org/10.1063/5.0222168
State	Published - Sep 1 2024

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/5.0222168

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title = "Analysis of an induced Langmuir wave by ponderomotive forces and its applicability for plasma diagnostics",

abstract = "We present a numerical study on the electron and ion density perturbation in low-temperature plasmas driven by the frequency detuning of two intense laser beams. Our study is performed in the hydrodynamic regime, which becomes applicable when the plasma grating period induced by the beating of the laser beams is greater than the Debye length and collective processes such as plasma oscillations can be excited. Our findings show a resonance in electron density perturbation as the frequency detuning approaches a value consistent with the Bohm-Gross dispersion relation in low- and high-pressure plasmas. We discuss the potential of this resonance as a diagnostic tool for precisely measuring electron temperature and density in low-temperature plasmas through coherent scattering.",

author = "{Flores Alfaro}, {Gabriel M.} and Shneider, {Mikhail N.} and Alexandros Gerakis",

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doi = "10.1063/5.0222168",

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T1 - Analysis of an induced Langmuir wave by ponderomotive forces and its applicability for plasma diagnostics

AU - Flores Alfaro, Gabriel M.

AU - Shneider, Mikhail N.

AU - Gerakis, Alexandros

PY - 2024/9/1

Y1 - 2024/9/1

N2 - We present a numerical study on the electron and ion density perturbation in low-temperature plasmas driven by the frequency detuning of two intense laser beams. Our study is performed in the hydrodynamic regime, which becomes applicable when the plasma grating period induced by the beating of the laser beams is greater than the Debye length and collective processes such as plasma oscillations can be excited. Our findings show a resonance in electron density perturbation as the frequency detuning approaches a value consistent with the Bohm-Gross dispersion relation in low- and high-pressure plasmas. We discuss the potential of this resonance as a diagnostic tool for precisely measuring electron temperature and density in low-temperature plasmas through coherent scattering.

AB - We present a numerical study on the electron and ion density perturbation in low-temperature plasmas driven by the frequency detuning of two intense laser beams. Our study is performed in the hydrodynamic regime, which becomes applicable when the plasma grating period induced by the beating of the laser beams is greater than the Debye length and collective processes such as plasma oscillations can be excited. Our findings show a resonance in electron density perturbation as the frequency detuning approaches a value consistent with the Bohm-Gross dispersion relation in low- and high-pressure plasmas. We discuss the potential of this resonance as a diagnostic tool for precisely measuring electron temperature and density in low-temperature plasmas through coherent scattering.

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Analysis of an induced Langmuir wave by ponderomotive forces and its applicability for plasma diagnostics

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