Eur. Phys. J. D (2014) 68: 250
https://doi.org/10.1140/epjd/e2014-50367-0

Regular Article

Dissociation of OCS by high energy highly charged ion impact

¹ Department of Physics, University of Calcutta, 92, A.P.C. Road, 700009 Kolkata, India
² Physical Research Laboratory, 380009 Ahmedabad, India
³ Inter-University Accelerator Centre, Aruna Asaf Ali Marg, 110067 New Delhi, India

^a e-mail: ecstasy.mridula@gmail.com

Received: 9 May 2014
Received in final form: 1 July 2014
Published online: 11 September 2014

Abstract

Various dissociation channels of OCS^q+ (where q = 2 to 4), formed in the interaction of 5 MeV u^-1 Si¹²⁺ ion beam with neutral OCS, have been studied using recoil–ion momentum spectroscopy. The concerted and/or sequential nature of dissociation is inferred from the shape and slope of the coincidence islands in the 2D coincidence map. It is observed that the C⁺ + S⁺ + O channel results from concerted as well as sequential decay of OCS²⁺. However the other channels originate purely from the concerted process in which the two terminal fragments (oxygen and sulphur) fly back to back and the central carbon fragment is left with negligible momentum. The kinetic energy release (KER) distributions for all the fragmentation channels arising from the dissociation of OCS^q+ (where q = 2 to 4) have been measured and compared with the available data in the literature. It is observed that the KER values for complete Coulomb fragmentation channels are much smaller than those of incomplete Coulomb fragmentation cases and the KER increases with the increasing charge states of the parent molecular ions. From the momentum correlation map, we estimated the geometry of the precursor molecular ion undergoing three–body dissociation and inferred that bent dissociative states are involved in most of the fragmentation channels of OCS^q+.