Theoretical Progress and the state-of-art models for Plasma Quantization

Authors

  • Haixi Miao
  • Hanrui Shi

DOI:

https://doi.org/10.54097/hset.v5i.738

Keywords:

quantum plasma, Villasov equation, alactic plasma.

Abstract

Plasma, known as the fourth state of matter, attracts the curiosity of scholars. Specifically, this paper will discuss the quantization models and theoretical progress for plasma, starting with the brief conclusion of fruition of former researchers. In addition, the novel perspective for the process will be proposed in order to expansion of investigating plasma relevant effects. According to the analysis of the quantization process of plasma, (i.e., the Vilasov equation describing the basic motion), the basic theory of quantum plasma is introduced. Moreover, the state-of-art models and results on the quantization of plasma field and interstellar plasma will also be introduced. These results shed light on guiding further exploration on nonlinear plasma physics.

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References

Z. Lu, The Fourth State of Matter—Plasma. World of Metal, Version 2, (1995) 2.

B. R. Adhikari, R. Khanal, Introduction to the Plasma State of Matter. Himalayan Physics, 4, (2013), pp. 60–64.

W. H. Zhao, Plasma-The Fourth State of Matter. Today (Z3), (2005), 43-45.

S. Chourasiya, M-Physics Tutorial, Debye Shielding in Plasma Physics, 2020.

Information on: https://www.mphysicstutorial.com/2020/11/debye-shielding-in-plasma-physics.html

T. Britannica, Editors of Encyclopaedia (2012, August 7), plasma oscillation. Information on: https://www.britannica.com/science/plasma-oscillation

T. S. T. Shirakawa, H. S. H. Sugai, Plasma oscillation method for measurements of absolute electron density in plasma, Japanese journal of applied physics, 32(11R), (1993), 5129.

M. Stefan, On Models of Quantum Plasmas and their Nonlinear Implications, Diss of Umea Universiteit, 2014.

J. Zamanian, M. Marklund, G. Brodin, Scalar quantum kinetic theory for spin-1/2 particles: mean field theory. New Journal of Physics, 12(4), (2010), 043019.

P. Gibbon, Introduction to plasma physics, arXiv preprint arXiv:2007.04783 (2020).

H. Alfven, Model of the Plasma Universe, IEEE Transactions on Plasma Science, 14(6), 1986, 629-638.

H. Alfven, Paradigm Transition in Cosmic Plasma Physics, Physica Scripta 1982.T2A (1982): 10.

H. Alfven, Cosmogony as an Extrapolation of Magnetospheric Research, Space Science Reviews, 39(1-2), (1984), pp. 65-90.

H. Alfven, I. Axnas, N. Brenning, et al. Voyager Saturnian ring measurements and the early history of the solar system, Planetary & Space Science, 34(2), (1986), pp.145-154.

V. Aquilanti, M. Capitelli, F. Pegoraro, Introduction: Classical and quantum plasmas—matter under extreme conditions, Rendiconti Lincei. Scienze Fisiche e Naturali, 30(1), (2019), pp. 1-3.

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Published

07-07-2022

How to Cite

Miao, H. ., & Shi, H. . (2022). Theoretical Progress and the state-of-art models for Plasma Quantization. Highlights in Science, Engineering and Technology, 5, 166-172. https://doi.org/10.54097/hset.v5i.738