Charge transfer and association of Li+ colliding with Na from very low to intermediate energies

摘要

The nonradiative charge-transfer processes of Li+ + Na(3s) collisions have been investigated by using the fully quantum-mechanical molecular-orbital close-coupling method and the two-center atomic-orbital close-coupling method for the energy range of 10(-4) -2keV/u and 0.2-10 keV/u, respectively. The radiative charge-transfer, radiative decay, and radiative-association processes have been studied by employing the fully quantum, optical-potential, and semiclassical methods for the energy range of 2 x 10(-10)-110 eV/u. The nonradiative charge-transfer processes dominate the collisions for energies above 0.2 eV/u while radiative decay processes dominate in the lower-energy region. Especially, we found that the radiative-association process is more important than the radiative charge-transfer process when E < 2 x 10(-2) eV/u. The rate coefficients of nonradiative and radiative processes are also given for the temperature range of 3 x 10(4) - 2 x 10(9) K and 10(-6) - 10(3) K, respectively.