We report an ab initio study of the dynamics of the reaction F + D-2 --> DF + D, where D-2 is initially in a rotationally excited state (j = 2). Th e possibility of obtaining ultra-cold molecules and of investigating reaction dynamics at ultra-low temperature relies on the production of molecules in a well defined quantum state and it is important to know the relative efficiency of the rotational quenching and of the chemical reaction. We examine here a reaction with an activation barrier, the reaction of F with D-2, and we find that quenching dominates the reaction when the initial rotational level lies e nergetically below the barrier, so severe trap loss may occur before the reaction can take place.
The reaction of F+D2 at ultralow temperatures: the effect of rotational excitation / Bodo, Enrico; Gianturco, Francesco Antonio; A., Dalgarno. - In: JOURNAL OF PHYSICS. B, ATOMIC MOLECULAR AND OPTICAL PHYSICS. - ISSN 0953-4075. - STAMPA. - 35:(2002), pp. 2391-2396. [10.1088/0953-4075/35/10/316]
The reaction of F+D2 at ultralow temperatures: the effect of rotational excitation
BODO, Enrico;GIANTURCO, Francesco Antonio;
2002
Abstract
We report an ab initio study of the dynamics of the reaction F + D-2 --> DF + D, where D-2 is initially in a rotationally excited state (j = 2). Th e possibility of obtaining ultra-cold molecules and of investigating reaction dynamics at ultra-low temperature relies on the production of molecules in a well defined quantum state and it is important to know the relative efficiency of the rotational quenching and of the chemical reaction. We examine here a reaction with an activation barrier, the reaction of F with D-2, and we find that quenching dominates the reaction when the initial rotational level lies e nergetically below the barrier, so severe trap loss may occur before the reaction can take place.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
