Consistent descriptions of the equation of states, and information abouttransport coefficients of deuterium-tritium mixture are demonstrated throughquantum molecular dynamic (QMD) simulations (up to a density of 600 g/cm$^{3}$and a temperature of $10^{4}$ eV). Diffusion coefficients and viscosity arecompared with one component plasma model in different regimes from the strongcoupled to the kinetic one. Electronic and radiative transport coefficients,which are compared with models currently used in hydrodynamic simulations ofinertial confinement fusion, are evaluated up to 800 eV. The Lorentz number isalso discussed from the highly degenerate to the intermediate region.
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机译:通过量子分子动力学(QMD)模拟(密度高达600 g / cm $ ^ {3} $和温度为$ 10 ^ {4)证明了状态方程的一致描述以及氘-混合物的传输系数信息。 } $ eV)。在从强耦合到动力学的不同状态下,将扩散系数和粘度与一种组分等离子体模型进行了比较。将电子和辐射传输系数与目前用于惯性约束聚变流体动力学模拟的模型进行比较,评估的结果高达800 eV。还讨论了从高度退化到中间区域的洛伦兹数。
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