Schneider A S, Hughto J, Horowitz C J, Berry D K
Department of Physics and Nuclear Theory Center, Indiana University, Bloomington, Indiana 47405, USA.
Phys Rev E Stat Nonlin Soft Matter Phys. 2012 Jun;85(6 Pt 2):066405. doi: 10.1103/PhysRevE.85.066405. Epub 2012 Jun 20.
We determine the liquid-solid phase diagram for carbon-oxygen and oxygen-selenium plasma mixtures using two-phase molecular dynamics simulations. We identify liquid, solid, and interface regions using a bond angle metric. To study finite-size effects, we perform 27,648- and 55,296-ion simulations. To help monitor nonequilibrium effects, we calculate diffusion constants D(i). For the carbon-oxygen system we find that D(O) for oxygen ions in the solid is much smaller than D(C) for carbon ions and that both diffusion constants are 80 or more times smaller than diffusion constants in the liquid phase. There is excellent agreement between our carbon-oxygen phase diagram and that predicted by Medin and Cumming. This suggests that errors from finite-size and nonequilibrium effects are small and that the carbon-oxygen phase diagram is now accurately known. The oxygen-selenium system is a simple two-component model for more complex rapid proton capture nucleosynthesis ash compositions for an accreting neutron star. Diffusion of oxygen, in a predominantly selenium crystal, is remarkably fast, comparable to diffusion in the liquid phase. We find a somewhat lower melting temperature for the oxygen-selenium system than that predicted by Medin and Cumming. This is probably because of electron screening effects.
我们使用两相分子动力学模拟确定了碳 - 氧和氧 - 硒等离子体混合物的液 - 固相图。我们使用键角度量来识别液体、固体和界面区域。为了研究有限尺寸效应,我们进行了包含27,648个离子和55,296个离子的模拟。为了帮助监测非平衡效应,我们计算了扩散常数D(i)。对于碳 - 氧系统,我们发现固体中氧离子的D(O)远小于碳离子的D(C),并且这两个扩散常数都比液相中的扩散常数小80倍或更多。我们的碳 - 氧相图与Medin和Cumming预测的相图非常吻合。这表明有限尺寸和非平衡效应引起的误差很小,并且碳 - 氧相图现在已准确得知。氧 - 硒系统是一个简单的双组分模型,用于模拟吸积中子星更复杂的快速质子捕获核合成灰烬成分。在主要为硒的晶体中,氧的扩散非常快,与液相中的扩散相当。我们发现氧 - 硒系统的熔化温度略低于Medin和Cumming预测的温度。这可能是由于电子屏蔽效应。
