Anewsynchrotron-based study of the photoelectron spectrum (PES) of difluoromethane is interpreted by an ab initio analysis of the ionic states, which includes Franck-Condon (FC) factors. Double differentiation of the spectrum leads to significant spectral sharpening; the vibrational structure observed is now measured with greater accuracy than in previous studies. Several electronic structure methods are used, including equation of motion coupled cluster calculations with single and double excitations (EOM-CCSD), its ionization potential variant EOM-IP-CCSD, 4th order Moller-Plesset perturbation theory (MP4SDQ) configuration interaction (CI), and complete active space self-consistent-field (CASSCF) methods. The adiabatic ionization energies (AIEs) confirm the assignments as band I, one state 1(2)B(1) (12.671 eV); band II, three states, 1(2)B(2) (14.259) < 1(2)A(1) (15.030) < 1(2)A(2) (15.478 eV); and band III, three states, 2(2)B(2) (18.055) < 2(2)A(1) (18.257) < 2(2)B(1) (18.808 eV). The three ionizations in each of the bands II and III lead to selective line broadening of the PES structure, which is attributed to vibronic overlap. The apparent lack of a vibrational structure attributable to both the 1(2)A(1) and 2(2)A(1) states in the PES arises from line broadening with the preceding states 1(2)B(2) and 2(2)B(2), respectively. Although these (2)A(1) states clearly overlap with their adjacent higher IE, some vibrational structure is observed on the higher IE. The effects of vibronic coupling are evident since the observed structure does not fit closely with the calculated Born-Oppenheimer FC profiles. Correlation of the lowest group of four AIEs in the PES of other members of the CH2X2 group, where X = F, Cl, Br, and I, clearly indicate these effects are more general. Published by AIP Publishing.

The ionic states of difluoromethane: A reappraisal of the low energy photoelectron spectrum including ab initio configuration interaction computations

Coreno Marcello;de Simone Monica;Grazioli Cesare;
2017

Abstract

Anewsynchrotron-based study of the photoelectron spectrum (PES) of difluoromethane is interpreted by an ab initio analysis of the ionic states, which includes Franck-Condon (FC) factors. Double differentiation of the spectrum leads to significant spectral sharpening; the vibrational structure observed is now measured with greater accuracy than in previous studies. Several electronic structure methods are used, including equation of motion coupled cluster calculations with single and double excitations (EOM-CCSD), its ionization potential variant EOM-IP-CCSD, 4th order Moller-Plesset perturbation theory (MP4SDQ) configuration interaction (CI), and complete active space self-consistent-field (CASSCF) methods. The adiabatic ionization energies (AIEs) confirm the assignments as band I, one state 1(2)B(1) (12.671 eV); band II, three states, 1(2)B(2) (14.259) < 1(2)A(1) (15.030) < 1(2)A(2) (15.478 eV); and band III, three states, 2(2)B(2) (18.055) < 2(2)A(1) (18.257) < 2(2)B(1) (18.808 eV). The three ionizations in each of the bands II and III lead to selective line broadening of the PES structure, which is attributed to vibronic overlap. The apparent lack of a vibrational structure attributable to both the 1(2)A(1) and 2(2)A(1) states in the PES arises from line broadening with the preceding states 1(2)B(2) and 2(2)B(2), respectively. Although these (2)A(1) states clearly overlap with their adjacent higher IE, some vibrational structure is observed on the higher IE. The effects of vibronic coupling are evident since the observed structure does not fit closely with the calculated Born-Oppenheimer FC profiles. Correlation of the lowest group of four AIEs in the PES of other members of the CH2X2 group, where X = F, Cl, Br, and I, clearly indicate these effects are more general. Published by AIP Publishing.
2017
Istituto Officina dei Materiali - IOM -
Istituto di Struttura della Materia - ISM - Sede Secondaria Trieste
Photoelectron spectra
Synchrotrons
Basis sets
Configuration interaction
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/328208
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