Abstract
Configuration interaction wave functions and potential energy curves have been calculated for the four lowest states of 2Π and 2Σ+ symmetry and the lowest state of 4Σ−, 2Σ−, 2Δ, and 4Π symmetry for the molecular ion HCl+. Dipole moment functions of the X 2Π and A 2Σ+ states are presented as well as dipole moments for transitions from the X state to dipole-allowed excited states. The electronic wave functions were constructed to give a balanced description of Rydberg–valence interactions. The computed radiative lifetime of the X 2Π(v=1) is found to be in good agreement with previous theoretical and experimental values. Oscillator strengths, transition probabilities, and radiative lifetimes are calculated for the A 2Σ+–X 2Π transition for vibrational levels v′≤6 and compared to previous theoretical and experimental results. Vibrational levels v′≥7 of the A 2Σ+ state are predissociated by the 4Π, 4Σ−, and 2Σ− states. Theoretical photodissociation cross sections are calculated showing that photodissociation occurs primarily through absorption into the (3) 2Π and (3) 2Σ+ states in the wavelength region λ<100 nm and also the 2Σ−, 2Δ, and (2) 2Π states for wavelengths λ>100 nm.
Highlights
We report herean extensivestudy of ten low-lying electronic statesof HClf in order to describeaccurately the photodissociationof HCl + in radiation fields and to characterize the molecular statesthat control the chargetransfer process, H+ +Cl=H+Cl+
A fourth stateof 211symmetry and a fourth stateof ‘8 + symmetry areincluded in this study, sincethey canbe populatedby electric dipoletransitions from the ground stateand may play a role in photodissociation.It is expectedthat these statesexhibit a high degreeof Rydberg characterand considerableconfiguration mixing with the many statesthat lie in close proximity
The calculated splitting between the H+ + C1(3p512Po) and H + Cl+ (3p4j3P) lim its is in error by 0.41 eV
Summary
We report herean extensivestudy of ten low-lying electronic statesof HClf in order to describeaccurately the photodissociationof HCl + in radiation fields and to characterize the molecular statesthat control the chargetransfer process, H+ +Cl=H+Cl+ (1). Werner et a1.l’ have utilized paired natural orbital-configuration interaction (PNO-CI) and multiconfiguration self-consistent field-self-consistent electron pair (MCSCF-SCEP) methods to compute more accurate potential curves for the X ‘II and A *8 + states, dipole moments,and lifetimes of the vibrational levelsof the A *Z + and X *II states. In this paper,we investigatethe statesof HCl+ which separateto H + Cl+ (3P), H+ + Cl(2P0), H + Cl+ (‘D), and H + Cl + ( ‘5’) and compareour resultsfor~theX *Il and A ‘Z + states, the A-X transition moment functions, the X’II dipole moment function and the radiative lifetimes with previousstudies.Photodissociationcrosssectionshave beenobtainedfor transitions from the lowest vibrational level of the ground state,X “II to the repulsiveelectronic states of ‘2 + *8 -; ‘II, and “A symmetries
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