he collisional, superelastic encounters at ultralow energies of Li(+) with D(2) are computed using the exact coupled-channel dynamics, and using an ab initio potential energy surface discussed in earlier work. The changes in the target rovibrational structure due to the isotopic substitution, and in its rovibrational wave functions, are seen to have a marked effect, under the collision conditions of vanishing relative energy, on the corresponding dynamical attributes, allowing one to make specific predictions on the possible use of isotopic variants in cold trap processes.
Ultralow-energy vibrational quenching in ionic collisions: Isotope effects in Li+ + D2 encounters / Bovino, Stefano; Bodo, Enrico; Gianturco, Francesco Giuseppe. - In: PHYSICAL REVIEW A. - ISSN 1050-2947. - STAMPA. - 77:4(2008). [10.1103/PhysRevA.77.042716]
Ultralow-energy vibrational quenching in ionic collisions: Isotope effects in Li+ + D2 encounters
Bovino, Stefano;Bodo, Enrico;
2008
Abstract
he collisional, superelastic encounters at ultralow energies of Li(+) with D(2) are computed using the exact coupled-channel dynamics, and using an ab initio potential energy surface discussed in earlier work. The changes in the target rovibrational structure due to the isotopic substitution, and in its rovibrational wave functions, are seen to have a marked effect, under the collision conditions of vanishing relative energy, on the corresponding dynamical attributes, allowing one to make specific predictions on the possible use of isotopic variants in cold trap processes.| File | Dimensione | Formato | |
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