Relaxation model for a homogeneous plasmas with spherically symmetric velocity space

作者： Yangpeng Wang ¹ Jianyuan Xiao ^1,2 Xianhao Rao ¹ Pengfei Zhang ³ Yolbarsop Adil ¹ Ge Zhuang ¹
作者单位：

1. School of Nuclear Sciences and Technology, University of Science and Technology of China, Hefei, 230026, China

2. Laoshan Laboratory, Qingdao, 266100, China

3. School of Physical Sciences, University of Science and Technology of China, Hefei, 230026, China
通讯作者： Jianyuan Xiao Email:xiaojy@ustc.edu.cn Xianhao Rao Email:rrxxhh@mail.ustc.edu.cn
提交时间：2025-01-01 01:40:23

摘要: We derive the transport equations from the Vlasov-Fokker-Planck equation when the velocity space is spherically symmetric. The Shkarofsky’s form of Fokker-Planck-Rosenbluth collision operator is employed in the Vlasov-Fokker-Planck equation. A closed-form relaxation model for homogeneous plasmas could be presented in terms of Gauss hypergeometric2F1 functions. This has been accomplished based on the Maxwellian mixture model. Furthermore, we demonstrate that classic models such as two-temperature thermal equilibrium model and thermodynamic equilibrium model are special cases of our relaxation model and the zeroth-order Braginskii heat transfer model can also be derived. The present relaxation model is a nonequilibrium model based on the hypothesis that the plasmas system possesses finitely distinguishable independent features, without relying on the conventional near-equilibrium assumption.

Finitely distinguishable independent features hypothesis Maxwellian mixture model Fokker-Planck-Rosenbluth collision operator Spherical symmetry

来自： 王彦鹏
分类： 物理学 >> 气体、等离子体、放电物理物理学 >> 普通物理:统计和量子力学,量子信息等
投稿状态： 已被期刊接收
引用： ChinaXiv:202501.00014 (或此版本 ChinaXiv:202501.00014V1)
DOI:10.12074/202501.00014V1
CSTR:32003.36.ChinaXiv.202501.00014
科创链TXID： 891bd03f-8552-4eff-90c0-933f1b49cda3
推荐引用方式： Yangpeng Wang,Jianyuan Xiao,Xianhao Rao,Pengfei Zhang,Yolbarsop Adil,Ge Zhuang.Relaxation model for a homogeneous plasmas with spherically symmetric velocity space.中国科学院科技论文预发布平台.[ChinaXiv:202501.00014V1] (点此复制)

版本历史

[V1]

2025-01-01 01:40:23

ChinaXiv:202501.00014V1

下载全文

相关论文推荐

1. 时空对偶原理计算黑洞温度与辐射	2025-07-18
2. Machine learning-based prediction of alloying element effects on irradiation swelling in austenitic steels	2025-07-10
3. The dynamical mechanism in the fusion reactions to synthesize neutron-deficient Pu isotopes	2025-07-09
4. Study on Transport Properties of Charged Particles in Plasmas Based on GEANT4 and the Modified LP Theory	2025-07-08
5. A Novel Bimodal Radio-frequency Cavity Enabling Independent Tuning and Effective Higher-Order Mode Damping for Advanced Synchrotron Light Sources	2025-07-08
6. The study of influence factors on charge exchange efficiency of C^{2+} to C^{-} by using Geant4	2025-07-04
7. Measurement of neutron yields from a thick uranium target bombarded by high-energy ⁴He ions	2025-07-03
8. Full configuration interaction quantum Monte Carlo in nuclear structure calculations	2025-06-30
9. Extracting Transport Properties of Quark-Gluon Plasma from the Heavy-Quark Potential With Neural Networks in a Holographic Model	2025-06-27
10. Alternating Source-Detector Array Stationary CT System and Its Reconstruction	2025-06-25


公开评论匿名评论仅发给作者