Simulation of DC glow discharge plasma with free-moving dust particles in the radial direction

Tian, Ruoming; Liang, Yonggan; Hao, Shuji; Feng, Jiashi; Jiang, Xiaonan; Li, Hui; Yuan, Chengxun; Wu, Jian

doi:10.1088/2058-6272/acc44a

Cited by 4 publications

(1 citation statement)

References 35 publications

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“…Gas discharge techniques can generate plasmas encompassing diverse atoms. Prominent gas discharge techniques encompass glow discharge [9][10][11][12][13][14], microwave discharge [15][16][17][18], and others. In the context of microwave discharge technology in dry air, the generation of microplasma leads to a significant accumulation of oxygen atoms.…”

Section: Introductionmentioning

confidence: 99%

Generating a Sustained Oxygen-Stable Atomic Concentration in a High-Temperature Gas Effect Investigation

Zhi,

Chang,

Huang

et al. 2023

Micromachines

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Modulated laser absorption spectroscopy is an ideal technique for evaluating flow-field parameters and determining flow-field quality by measuring the atoms dissociated in high-temperature environments. However, to obtain the absolute number density of atoms in the flow field, it is necessary to compare the measured modulated absorption spectroscopy signal with a known atomic concentration and establish a quantitative relationship through concentration calibration. Nevertheless, it remains a challenging task to prepare transient atomic samples with known concentrations that meet the calibration requirements. This study utilized the alternating-current glow discharge technique to dissociate oxygen in the air flow, resulting in the continuous generation of oxygen atoms. The absolute number densities of the generated oxygen atoms were determined by measuring the direct absorption spectra of centered on 777 nm for oxygen atoms. The number densities of the generated atoms were finely tuned by adjusting the discharge parameters. Throughout the 120-min continuous operation of the discharge system, the concentration of excited-state oxygen atoms remained stable within the range of (2.51 ± 0.02) × 108 cm−3, demonstrating the remarkable stability of the transient atomic concentration generated by the glow discharge plasma. This observation suggests that the generated atoms can be utilized as a standardized atomic sample of known concentration for absolute concentration calibration purposes.

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Section: Introductionmentioning

confidence: 99%

Generating a Sustained Oxygen-Stable Atomic Concentration in a High-Temperature Gas Effect Investigation

Zhi,

Chang,

Huang

et al. 2023

Micromachines

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Physics and applications of dusty plasmas: The Perspectives 2023

Beckers,

Berndt,

Block

et al. 2023

Physics of Plasmas

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Dusty plasmas are electrically quasi-neutral media that, along with electrons, ions, neutral gas, radiation, and electric and/or magnetic fields, also contain solid or liquid particles with sizes ranging from a few nanometers to a few micrometers. These media can be found in many natural environments as well as in various laboratory setups and industrial applications. As a separate branch of plasma physics, the field of dusty plasma physics was born in the beginning of 1990s at the intersection of the interests of the communities investigating astrophysical and technological plasmas. An additional boost to the development of the field was given by the discovery of plasma crystals leading to a series of microgravity experiments of which the purpose was to investigate generic phenomena in condensed matter physics using strongly coupled complex (dusty) plasmas as model systems. Finally, the field has gained an increasing amount of attention due to its inevitable connection to the development of novel applications ranging from the synthesis of functional nanoparticles to nuclear fusion and from particle sensing and diagnostics to nano-contamination control. The purpose of the present perspectives paper is to identify promising new developments and research directions for the field. As such, dusty plasmas are considered in their entire variety: from classical low-pressure noble-gas dusty discharges to atmospheric pressure plasmas with aerosols and from rarefied astrophysical plasmas to dense plasmas in nuclear fusion devices. Both fundamental and application aspects are covered.

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Influence of a Hypersonic Ablative Plasma Wake-Field on the Performance of a Vivaldi Antenna

Guo,

2024

IEEE Trans. Plasma Sci.

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Simulation of DC glow discharge plasma with free-moving dust particles in the radial direction

Cited by 4 publications

References 35 publications

Generating a Sustained Oxygen-Stable Atomic Concentration in a High-Temperature Gas Effect Investigation

Generating a Sustained Oxygen-Stable Atomic Concentration in a High-Temperature Gas Effect Investigation

Physics and applications of dusty plasmas: The Perspectives 2023

Influence of a Hypersonic Ablative Plasma Wake-Field on the Performance of a Vivaldi Antenna

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