高密度氘的局域自旋密度近似分子动力学模拟

Local-spin-density-approximation molecular-dynamics simulations of dense deuterium.

作者信息

Bagnier S, Blottiau P, Clérouin J

机构信息

CEA/DIF, Boîte Postale 12, 91680 Bruyères le Châtel Cedex, France.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2001 Jan;63(1 Pt 2):015301. doi: 10.1103/PhysRevE.63.015301. Epub 2000 Dec 19.

DOI:10.1103/PhysRevE.63.015301

PMID:11304303

Abstract

Local-spin-density-approximation molecular-dynamics simulations of deuterium in the dissociating regime are presented, with a particular emphasis on the molecular phase of two isochores corresponding for deuterium to V=6 cm(3)/mole, rho=0.670 g/cm(3) and V=4 cm(3)/mole, rho=1 g/cm(3). It is shown that the transition from the molecular regime, well described by the local-spin-density-approximation functional, to the dissociated regime where previous local-density-approximation results are recovered, comes with a negative curvature deltaP/deltaT<0 in the isochore. We show that this effect is not enough to explain the large compressibility measured in the laser experiments [L. B. DaSilva et al., Phys. Rev. Lett. 78, 483 (1997); G. W. Collins et al., Science 281, 1178 (1998); P. Celliers et al., Phys. Rev. Lett. 84, 5564 (2000)].

摘要

本文展示了氘在离解状态下的局域自旋密度近似分子动力学模拟，特别关注了对应于氘的两个等容线的分子相，分别为V = 6 cm³/mol，ρ = 0.670 g/cm³和V = 4 cm³/mol，ρ = 1 g/cm³。结果表明，从由局域自旋密度近似泛函很好描述的分子态到恢复先前局域密度近似结果的离解态的转变，伴随着等容线中负曲率δP/δT < 0。我们表明，这种效应不足以解释在激光实验中测量到的大压缩性[L. B. DaSilva等人，《物理评论快报》78, 483 (1997); G. W. Collins等人，《科学》281, 1178 (1998); P. Celliers等人，《物理评论快报》84, 5564 (2000)]。