Your search keyword '"Jiang, Dong-Jun"' showing total 8 results

1. Theoretical analyses on the one-dimensional charged particle transport in a decaying plasma under an electrostatic field.

Author

Wang, Yao-Ting, Sun, Xin-Li, Luo, Lan-Yue, Zhang, Zi-Ming, Li, He-Ping, Jiang, Dong-Jun, and Zhou, Ming-Sheng

Subjects

PARTICLE decays, COLLISIONLESS plasmas, LASER plasmas, VOLTAGE, ELECTRIC potential, PLASMA oscillations, ELECTROSTATIC fields

Abstract

The spatiotemporal evolutions of a one-dimensional collisionless decaying plasma bounded by two electrodes with an externally applied electrostatic field are studied by theoretical analyses and particle-in-cell (PIC) simulations with the ion extraction process in a laser-induced plasma as the major research background. Based on the theoretical analyses, the transport process of the charged particles including electrons and ions can be divided into three stages: electron oscillation and ion matrix sheath extraction stage, sheath expansion and ion rarefaction wave propagation stage and the plasma collapse stage, and the corresponding criterion for each stage is also presented. Consequently, a complete analytical model is established for describing the ion extraction flux at each stage during the decaying of the laser-induced plasmas under an electrostatic field, which is also validated by the PIC modeling results. Based on this analytical model, influences of the key physical parameters, including the initial electron temperature and number density, plasma width and the externally applied electric voltage, on the ratio of the extracted ions are predicted. The calculated results show that a higher applied electric potential, smaller initial plasma number density and plasma width lead to a higher ratio of the extracted ions during the first stage; while in this stage, the initial electron temperature shows little effect on it. Meanwhile, more ions will be extracted before the plasma collapse once a higher electric potential is applied. The theoretical model presented in this paper is helpful not only for a deep understanding to the charged particle transport mechanisms for a bounded decaying plasma under an applied electrostatic field, but also for an optimization of the ion extraction process in practical applications. [ABSTRACT FROM AUTHOR]

Published

2023

2. Analysis and particle-in-cell simulation on the similarity relation during an ion extraction process

Author

Wang, Yao-Ting, primary, Chen, Jian, additional, Li, He-Ping, additional, Jiang, Dong-Jun, additional, and Zhou, Ming-Sheng, additional

Published

2022

3. Numerical Studies on the Non-Equilibrium Transport of Charged Particles in a Confined Decaying Plasma: Effects of the Ion Rarefaction Waves

Author

Chen, Jian, primary, Wang, Yao-Ting, additional, Li, He-Ping, additional, Jiang, Dong-Jun, additional, and Zhou, Ming-Sheng, additional

Published

2020

4. Modeling of the charged particle transport process in a decaying plasma with a Π-type electrode configuration

Author

Wang, Yao-Ting, primary, Chen, Jian, additional, Li, He-Ping, additional, Jiang, Dong-Jun, additional, and Zhou, Ming-Sheng, additional

Published

2020

5. Beam-assisted extraction of charged particles from a decaying plasma

Author

Chen, Jian, primary, Khrabrov, Alexander V, additional, Wang, Yao-Ting, additional, Li, Jing, additional, Li, He-Ping, additional, Jiang, Dong-Jun, additional, and Zhou, Ming-Sheng, additional

Published

2020

6. Centrifugal Separation of Carbon and Chlorine Isotopes Using Freon-11 as Processing Gas

Author

PEI Gen, ZHOU Ming-sheng, and JIANG Dong-jun

Subjects

gas centrifugation process freon-11 carbon isotopes chlorine isotopes, polycyclic compounds, lcsh:QC770-798, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity

Abstract

In order to explore the effective ways for high-abundance carbon and chlorine isotopes production, a method to acquire high-abundance carbon-12 and chlorine-35 isotopes simultaneously was presented by gas centrifugation process using Freon-11 as processing gas. Carbon and chlorine isotopes were separated by single centrifugal experiment of domestic centrifuge. A proper mass spectrometric method was proposed to analyze the separation performance. Theoretical calculation on cascades for producing high-abundance carbon-12 and chlorine-35 isotopes was applied. The results showed that using a 24-stage square cascade, with the 3rd stage as feeding stage and reflux at both ends, carbon-12 and chlorine-35 isotopes of an abundance of above 99% could be acquired simultaneously. The experimental study and theoretical calculation provided evidence for the production of high-abundance carbon-12 and chlorine-35 isotopes. In theory, the method could also be applied to the production of high-abundance carbon-13 and chlorine-37 isotopes.

Published

2017

7. Physical characteristics of ion extraction simulation system based on gas discharge plasma jet

Author

Guo Heng, Li Heping, Jiang Dong-Jun, Zhou Mingsheng, Chen Jian, and Liu Zhi-Qiang

Subjects

010302 applied physics, Materials science, Physics::Plasma Physics, 0103 physical sciences, Extraction (chemistry), Plasma jet, Analytical chemistry, General Physics and Astronomy, Simulation system, 01 natural sciences, 010305 fluids & plasmas, Ion, Electric discharge in gases

Abstract

In an atomic vapor laser isotope separation process, the required isotope atoms are ionized selectively by a pulsed laser with a specific narrow line width, and then the produced isotope ions are extracted to the collected plates under an externally applied electromagnetic field. In the whole ion separation process, the ion extraction sub-process is one of the most important physical processes. Previous studies have shown that the key parameters of the laser-induced plasma, e.g., the initial electron number density and temperature, have a significant influence on the ion extraction features. In an actual isotope separation process, a specifically designed laser is necessary to produce the required isotope ions, which, however, leads the whole facility to have a very complicated structure, high capital cost, and especially, very narrow window of the key plasma parameters. These will, to some extent, limit a more in-depth investigation of the influences of the key plasma parameters on the ion extraction characteristics. In this paper, an ion extraction platform (ion extraction simulation experimental platform-2015, IEX-2015) is developed on the basis of a gas discharge plasma jet driven by a kilo-hertz high-voltage power supply. And an argon plasma collisional-radiative model is established to measure the electron temperature and number density in the plasma jet region. The experimental results show that the power input and driving frequency of the power supply and the argon mass flow rate can all affect the electron temperature and electron number density. The measured variation ranges of the electron number density and temperature are 109-1011 cm-3 and 1.7-2.8 eV, respectively, under a chamber pressure on the order of 10-2 Pa, which are close to the parameter levels in the actual ion extraction process. Subsequently, the preliminary ion extraction experiments are conducted under different extraction conditions including different externally applied voltages, different electrode distances and different plasma densities. The experimental results are also qualitatively consistent with those in an actual ion extraction process. The preceding preliminary experimental results show that it is feasible to conduct the ion extraction simulation study on IEX-2015. This is very helpful for systematically studying the ion extraction characteristics under different operating conditions in our future research.

Published

2018

8. (Z)-Ethyl 3-(1,3-benzodioxol-5-yl)-2-[(triphenylphosphoranylidene)amino]prop-2-enoate

Author

Jiang, Lai, primary, Wang, Ping, additional, Jiang, Dong-Jun, additional, and Su, Wei-Ke, additional

Published

2006