Publications [#339815] of Peng Zhang

Journal Articles

1. Yang, B; Zhang, P; Qu, C; Stancil, PC; Bowman, JM; Balakrishnan, N; Forrey, RC, Inelastic vibrational dynamics of CS in collision with H₂ using a full-dimensional potential energy surface., Physical chemistry chemical physics : PCCP, vol. 20 no. 45 (November, 2018), pp. 28425-28434 [doi]
   (last updated on 2026/01/19)

   Abstract:
   We report a six-dimensional (6D) potential energy surface (PES) for the CS-H2 system computed using high-level electronic structure theory and fitted using a hybrid invariant polynomial method. Full-dimensional quantum close-coupling scattering calculations have been carried out using this potential for rotational and, for the first time, vibrational quenching transitions of CS induced by H2. State-to-state cross sections and rate coefficients for rotational transitions in CS from rotational levels j1 = 0-5 in the ground vibrational state are compared with previous theoretical results obtained using a rigid-rotor approximation. For vibrational quenching, state-to-state and total cross sections and rate coefficients were calculated for the vibrational transitions in CS(v1 = 1,j1) + H2(v2 = 0,j2) → CS(v1' = 0,j1') + H2(v2' = 0,j2') collisions, for j1 = 0-5. Cross sections for collision energies in the range 1 to 3000 cm-1 and rate coefficients in the temperature range of 5 to 600 K are obtained for both para-H2 (j2 = 0) and ortho-H2 (j2 = 1) collision partners. Application of the computed results in astrophysics is also discussed.