Theoretical study of resonances formed in low-energy Li− + H collisions

Abstract

The full quantum molecular orbital close-coupling (QMOCC) method and optical potential method have been employed to study the nonradiative charge transfer and radiative decay processes for Li− colliding with H atoms. The cross sections of these processes are calculated rigorously in the energy range of 0.1–1.2 eV. It is found that rich and significant resonance structures appear at the same positions in the cross sections for both nonradiative charge transfer and radiative decay processes. The primary resonances are identified and studied by QMOCC (by fitting the eigenphase sum of the K-matrix) and complex absorbing potential (CAP) method. The resonance parameters calculated by CAP agree very well with those extracted from QMOCC calculations.