Laboratory astrophysics and non-ideal equations of state: The next challenges for astrophysical MHD simulations

Carver R.L.; Cunningham A.J.; Frank A.; Hartigan P.; Coker R.; Wilde B.H.; Foster J.; Rosen P.

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Laboratory astrophysics and non-ideal equations of state: The next challenges for astrophysical MHD simulations

机译：实验室天体物理学和非理想状态方程：天体物理MHD模拟的下一个挑战

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Laboratory astrophysics holds great promise not only as a highly effective validation tool for astrophysical magneto-hydrodynamics (MHD) codes but it also presents a unique challenge for these codes. The high-density plasmas found in these experiments are not well modeled by the ideal equations of state (EOS) found in most astrophysical simulation codes. To solve this problem, we replaced the ideal EOS scheme in an existing MHD code, AstroBEAR, with a non-ideal EOS method and validated our implementation with van der Waals shock tube tests. The improved code is also able to model flows that contain more than one material, as required in laboratory experiments. Simulations of jet experiments performed at the OMEGA Laser reproduce the morphology of the jet much better than when the code used a single material and an ideal EOS.

机译：实验室天体物理学不仅作为天体物理磁流体力学（MHD）编码的高效验证工具具有广阔的前景，而且对这些编码也提出了独特的挑战。这些实验中发现的高密度等离子体不能通过大多数天体物理模拟代码中的理想状态方程（EOS）很好地建模。为了解决这个问题，我们用非理想的EOS方法替换了现有的MHD代码AstroBEAR中的理想EOS方案，并通过van der Waals冲击管测试验证了我们的实现。改进的代码还能够按照实验室实验的要求对包含多种材料的流进行建模。与使用单一材料和理想EOS的代码相比，在OMEGA Laser上进行的喷气机实验仿真能够更好地再现喷气机的形态。

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《High energy density physics》 |2010年第4期|共10页
作者
Carver R.L.; Cunningham A.J.; Frank A.; Hartigan P.; Coker R.; Wilde B.H.; Foster J.; Rosen P.;
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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
Astrophysical jets; Hydrodynamics; Laboratory astrophysics; Non-Ideal EOS; Omega Laser; Simulation;

机译：天体物理射流;水动力;实验室天体物理学;非理想EOS;Ω激光;模拟;

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专利

1. Laboratory astrophysics and non-ideal equations of state: The next challenges for astrophysical MHD simulations [J] . Carver R.L., Cunningham A.J., Frank A., High energy density physics . 2010,第4期

机译：实验室天体物理学和非理想状态方程：天体物理MHD模拟的下一个挑战
2. Comparison of Dimensionless Parameters in Astrophysical MHD Systems and in Laboratory Experiments [J] . Kurbatov E. P., Bisikalo D. V, Starodubtsev M. V, Astronomy reports . 2018,第8期

机译：天体物理MHD系统与实验室实验中的无量纲参数的比较
3. Equations of state for astrophysical simulations from generalized relativistic density functionals [J] . Typel S. Journal of Physics, G. Nuclear and Particle Physics: An Institute of Physics Journal . 2018,第11期

机译：广义相对论密度函数的天体物理模拟状态
4. Design of Z-pinch based, jet-target collision experiments for laboratory astrophysics using 3D MHD modelling [C] . Chittenden J. P., Bocchi M., Lebedev S. V., 2010 Abstracts IEEE International Conference on Plasma Science . 2010

机译：使用3D MHD建模设计基于Z捏的，用于实验室天体物理学的射流目标碰撞实验
5. Shocks and jets from the laboratory environment to the astrophysical regime: Transforming AstroBEAR into an all purpose MHD simulation package. [D] . Carver, Robert L. 2010

机译：从实验室环境到天体物理状态的冲击和喷射：将AstroBEAR转变为通用的MHD仿真程序包。
6. Photodestruction of Diatomic Molecular Ions: Laboratory and Astrophysical Application [O] . Vladimir A. Srećković, Ljubinko M. Ignjatović, Milan S. Dimitrijević 2021

机译：硅藻分子离子的光脱离：实验室和天体物理应用
7. A discontinuous Galerkin method for solving the fluid and MHD equations in astrophysical simulations [O] . Mocz, Philip, Vogelsberger, Mark, Sijacki, Debora, 2013

机译：用于求解流体和mHD方程的不连续Galerkin方法在天体物理模拟中
8. Laboratory Plasma Source as an MHD Model for Astrophysical Jets [R] . Mayo, Robert M. 1997

机译：实验室等离子体源作为天体物理射流的mHD模型

Laboratory astrophysics and non-ideal equations of state: The next challenges for astrophysical MHD simulations

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