One-dimensional electromagnetic relativistic PIC-hydrodynamic hybrid simulation code H-VLPL (hybrid virtual laser plasma lab)

Liljo J; Karmakar A; Pukhov A; Hochbruck M

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One-dimensional electromagnetic relativistic PIC-hydrodynamic hybrid simulation code H-VLPL (hybrid virtual laser plasma lab)

机译：一维电磁相对论PIC-水动力混合仿真代码H-VLPL（混合虚拟激光等离子体实验室）

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In this paper we present a new one-dimensional full electromagnetic relativistic hybrid plasma model. The full kinetic particle-in-cell (PIC) and hydrodynamic model have been combined in the single hybrid plasma code H-VLPL (hybrid virtual laser plasma laboratory). The semi-implicit algorithm allows to simulate plasmas of arbitrary densities via automatic reduction of the highest plasma frequencies down to the numerically stable range. At the same time, the model keeps the correct spatial scales like the plasma skin depth. We discuss the numerically efficient implementation of this model. Further, we carefully test the hybrid model validity by applying it to a series of physical examples. The new mathematical method allows to overcome the typical time step restrictions of explicit PIC codes. (C) 2008 Elsevier B.V. All rights reserved.

机译：在本文中，我们提出了一种新的一维全电磁相对论混合等离子体模型。完整的动力学粒子（PIC）和流体动力学模型已组合在单个混合等离子体代码H-VLPL（混合虚拟激光等离子体实验室）中。半隐式算法允许通过自动将最高等离子体频率降低到数值稳定范围来模拟任意密度的等离子体。同时，模型保留正确的空间比例，例如血浆趋肤深度。我们讨论了此模型的数值有效实现。此外，我们通过将其应用于一系列物理示例来仔细测试混合模型的有效性。新的数学方法可以克服显式PIC代码的典型时间步长限制。（C）2008 Elsevier B.V.保留所有权利。

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《Computer physics communications》 |2008年第6期|共9页
作者
Liljo J; Karmakar A; Pukhov A; Hochbruck M;
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正文语种 eng
中图分类计算机的应用;
关键词
plasma simulation; object-oriented programming; particle-in-cell; hydrodynamic description; hybrid simulation; laser plasma interactions; IN-CELL CODE; ELECTRON-TRANSPORT; ACCELERATION;

机译：等离子体模拟;面向对象程序设计;单元内粒子;流体力学描述;混合模拟;激光等离子体相互作用;单元代码;电子传输;加速;

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1. One-dimensional electromagnetic relativistic PIC-hydrodynamic hybrid simulation code H-VLPL (hybrid virtual laser plasma lab) [J] . Liljo J, Karmakar A, Pukhov A, Computer physics communications . 2008,第6期

机译：一维电磁相对论PIC-水动力混合仿真代码H-VLPL（混合虚拟激光等离子体实验室）
2. Three-dimensional electromagnetic relativistic particle-in-cell code VLPL (virtual laser plasma lab) [J] . Pukhov A. Journal of Plasma Physics . 1999,第3期

机译：三维电磁相对论单元内粒子代码VLPL（虚拟激光等离子体实验室）
3. Two-dimensional hybrid code simulation of electromagnetic ion cyclotron waves of multi-ion plasmas in a dipole magnetic field [J] . Y. Hu, R. E. Denton, J. R. Johnson Journal of Geophysical Research, A. Space Physics: JGR . 2010,第A9期

机译：偶极磁场中多离子等离子体的电磁离子回旋波的二维混合编码模拟
4. Scalable Simulation of Electromagnetic Hybrid Codes [C] . Kalyan Perumalla, Richard Fujimoto, Homa Karimabadi International Conference on Computational Science(ICCS 2006) pt.2; 20060528-31; Reading(GB) . 2006

机译：电磁混合码的可扩展仿真
5. Hybrid code simulation of electromagnetic ion cyclotron waves in curvilinear coordinates. [D] . Hu, Yonggang. 2010

机译：曲线坐标中电磁离子回旋波的混合编码模拟。
6. Enhanced Energy Localization in Hyperthermia Treatment Based on Hybrid Electromagnetic and Ultrasonic System: Proof of Concept with Numerical Simulations [O] . N. Nizam-Uddin, Ibrahim Elshafiey 2006

机译：基于电磁和超声混合系统的热疗中增强的能量局部化：数值模拟的概念验证
7. Simulation of laser-plasma synchrotron radiation source by a relativistic hybrid code [O] . Kostyukov I. 2006

机译：相对论混合代码对激光等离子体同步辐射源的仿真
8. Interparticle collision model for electromagnetic hybrid simulations of high density plasmas. [R] . M. E. Jones V. A. Thomas D. Winske 1991

机译：高密度等离子体电磁混合仿真的粒子间碰撞模型。

One-dimensional electromagnetic relativistic PIC-hydrodynamic hybrid simulation code H-VLPL (hybrid virtual laser plasma lab)

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