中国物理B ›› 2010, Vol. 19 ›› Issue (6): 63401-063401.doi: 10.1088/1674-1056/19/6/063401
宫明艳, 胡小龙, 陈侠, 牛梅, 凤尔银
Gong Ming-Yan(宫明艳), Hu Xiao-Long(胡小龙), Chen Xia(陈侠), Niu Mei(牛梅), and Feng Er-Yin(凤尔银)†
摘要: The interaction potential of a He--BH complex is investigated by the coupled-cluster single-double plus perturbative triples (CCSD (T)) method and an augmented correlation consistent polarized valence (aug-cc-pV)5Z basis set extended with a set of (3s3p2d1f1g) midbond functions. Using the five two-dimensional model potentials, the first three-dimensional interaction potential energy surface is constructed by interpolating along (r--r_{\rm e}) by using a fourth-order polynomial. The cross sections for the rovibrational relaxation of BH in cold and ultracold collisions with 3He atom are calculated based on the three-dimensional potential. The results show that the \Delta v = - 1 transition is more efficient than the \varDelta v = - 2 transition, and that the process of relaxation takes place mainly between rotational energy levels with the same vibration state and the \varDelta j = - 1 transition is the most efficient. The zero temperature quenching rate coefficient is finite as predicted by Wigner's law. The resonance is found to take place around 0.1--1~cm^{ - 1} translational energy, which gives rise to a step in the rate coefficients for temperatures around 0.1--1~K. The final rotational distributions in the state v = 0 resulting from the quenching of state (v = 1,j = 0) at three energies corresponding to the three different regimes are also given.
中图分类号: (Vibration-rotation analysis)