FAST LiH DESTRUCTION IN REACTION WITH H: QUANTUM CALCULATIONS AND ASTROPHYSICAL CONSEQUENCES
暂无分享,去创建一个
[1] Karen Willcox,et al. Kinetics and kinematics for translational motions in microgravity during parabolic flight. , 2009, Aviation, space, and environmental medicine.
[2] E. Bodo,et al. Computing a three-dimensional electronic energy manifold for the LiH + H <==> Li + H2 chemical reaction. , 2009, The journal of physical chemistry. A.
[3] P. Gamallo,et al. Product distributions, rate constants, and mechanisms of LiH+H reactions. , 2005, The Journal of chemical physics.
[4] S. Mahapatra,et al. Quantum wave-packet dynamics of H+HLi scattering: reaction cross section and thermal rate constant. , 2004, The Journal of chemical physics.
[5] P. Stancil,et al. Atomic and molecular processes in the early Universe , 2002 .
[6] P. Jemmer,et al. Analytical potential energy surface and quasi-classical dynamics for the reaction LiH(X,1Σ+)+H(2S) → Li(2S)+H2(X,1Σ+g) , 2001 .
[7] D. Manolopoulos,et al. ABC: a quantum reactive scattering program , 2000 .
[8] Dong H. Zhang,et al. Uniform J-shifting approach for calculating reaction rate constant , 1999 .
[9] D. Galli,et al. Lithium hydride in the early Universe and in protogalactic clouds , 1997, astro-ph/9704287.
[10] F. Gianturco,et al. Radiative Association Rates and Structure of Resonances for Li and Li+ Colliding with H and H+ , 1997 .
[11] P. Stancil,et al. The Radiative Association of Li + and H, Li and H +, and Li and H , 1996 .
[12] F. Palla,et al. Deuterium in the Universe , 1995 .
[13] P. Stancil,et al. The Lithium Chemistry of the Early Universe , 1994 .
[14] J. Shull,et al. Molecules in the early universe , 1984 .
[15] A. Dalgarno. Molecular processes in the early Universe , 1998 .