Two‐Photon Dissociation Spectroscopy of State‐Selected HCl<sup>+</sup> and DCl<sup>+</sup> Ions

Michel, Michael; Weitzel, Karl‐Michael

doi:10.1002/cphc.200400140

Cited by 3 publications

(3 citation statements)

References 38 publications

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“…2,11,[14][15][16][17]40,47 The spectroscopic constants constitute one criterion for applicability of the potentials derived in Sec. 2,11,[14][15][16][17]40,47 The spectroscopic constants constitute one criterion for applicability of the potentials derived in Sec.…”

Section: B Spectroscopic Constantsmentioning

confidence: 99%

“…During the last decade intensive studies of HCl molecule and HCl + ion were accomplished both experimentally [1][2][3][4][5][6][7][8][9][10][11][12] and theoretically. [13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28] The latter involves electronic structure calculations, [13][14][15][16][17] spectroscopic applications, [18][19][20][21][22] and laserdriving time-dependent processes, described by coupled Schrödinger equations [23][24][25][26][27] as well as by semiclassical approach with hopping algorithm.…”

Section: Introductionmentioning

confidence: 99%

“…28 HCl + ion ͓such as the classical examples H 2 and H 2 + ͑Refs. [23][24][25][26][27] There is a lot of information on HCl + from spectroscopy ͑e.g., threshold photoelectron spectroscopy 2,4,5,[9][10][11] ͒ and ab initio calculations. [23][24][25][26][27] There is a lot of information on HCl + from spectroscopy ͑e.g., threshold photoelectron spectroscopy 2,4,5,[9][10][11] ͒ and ab initio calculations.…”

Section: Introductionmentioning

confidence: 99%

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Symmetry-adapted-cluster configuration interaction study of the doublet states of HCl+: Potential energy curves, dipole moments, and transition dipole moments

Гурин

Korolkov

Матулис

et al. 2007

The Journal of Chemical Physics

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The electronic structure of the HCl(+) molecular ion has been calculated using the general-R symmetry-adapted-cluster configuration interaction (SAC-CI) method. The authors present the potential energy curves, dipole moments, and transition dipole moments for a series of doublet states. The data are compared with the previous CASSCF and MCSCF calculations. The SAC-CI results reproduce quite well the data available in literature and extend the knowledge on the HCl(+) electronic structure for several higher states. The calculated R-dependent behavior of both dipole moments and transition dipole moments for a series of bound and unbound states reveals an intricate dissociation process at intermediate distances (R>R(e)). The pronounced maxima in transition dipole moment (TDM) describing transitions into high electronic states (X (2)Pi-->3 (2)Pi, X (2)Pi-->3 (2)Sigma, 2 (2)Pi-->3 (2)Pi, 3 (2)Pi-->4 (2)Pi) occur at different interatomic separations. Such TDM features are promising for selection of excitation pathways and, consequently, for an optimal control of the dissociation products.

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Section: B Spectroscopic Constantsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Symmetry-adapted-cluster configuration interaction study of the doublet states of HCl+: Potential energy curves, dipole moments, and transition dipole moments

Гурин

Korolkov

Матулис

et al. 2007

The Journal of Chemical Physics

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Laser Ionization Spectroscopy

Breunig

Weitzel

2012

Methods in Physical Chemistry

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A velocity map imaging study of the one and two photon dissociations of state-selected DCl+ cations

Webb

Nahler

Dixon

et al. 2006

The Journal of Chemical Physics

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DCl(+)(X (2)Pi(32),v(+")=0) cations have been prepared by 2+1 resonance enhanced multiphoton ionization, and their subsequent fragmentation following excitation at numerous wavelengths in the range of 240-350 nm studied by velocity map imaging of the resulting Cl(+) products. This range of excitation wavelengths allows selective population of A (2)Sigma(+) state levels with all vibrational (v(+')) quantum numbers in the range 0< or =v(+')< or =15. Image analysis yields wavelength dependent branching ratios and recoil anisotropies of the various D+Cl(+) ((3)P(J), (1)D, and (1)S) product channels. Levels with 10< or =v(+')< or =15 have sufficient energy to predissociate, forming D+Cl(+)((3)P(J)) products with perpendicular recoil anisotropies-consistent with the A (2)Sigma(+)<--X (2)Pi parent excitation and subsequent fragmentation on a time scale that is fast compared with the parent rotational period. Branching into the various spin-orbit states of the Cl(+)((3)P(J)) product is found to depend sensitively upon v(+') and, in the case of the v(+')=13 level, to vary with the precise choice of excitation wavelength within the A (2)Sigma(+)<--X (2)Pi(13,0) band. Such variations have been rationalized qualitatively in terms of the differing contributions made to the overall predissociation rate of DCl(+)(A,v(+')) molecules by coupling to repulsive states of (4)Pi, (4)Sigma(-), and (2)Sigma(-) symmetries, all of which are calculated to cross the outer limb of the A (2)Sigma(+) state potential at energies close to that of the v(+')=10 level. Cl(+)((3)P(J)) fragments are detected weakly following excitation to A (2)Sigma(+) state levels with v(+')=0 or 1, Cl(+)((1)D) fragments dominate the ion yield when exciting via 2< or =v(+')< or =6 and via v(+')=9, while Cl(+)((1)S) fragments dominate the Cl(+) images obtained when exciting via levels with v(+')=7 and 8. Analysis of wavelength resolved action spectra for forming these Cl(+) ions and of the resulting Cl(+) ion images shows that (i) these ions all arise via two photon absorption processes, resonance enhanced at the one photon energy by the various A(v(+')<10) levels, (ii) the first A (2)Sigma(+)<--X (2)Pi absorption step is saturated under the conditions required to observe significant two photon dissociation, and (iii) the final absorption step from the resonance enhancing A(v(+')) level involves a parallel transition.

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Two‐Photon Dissociation Spectroscopy of State‐Selected HCl⁺ and DCl⁺ Ions

Cited by 3 publications

References 38 publications

Symmetry-adapted-cluster configuration interaction study of the doublet states of HCl+: Potential energy curves, dipole moments, and transition dipole moments

Symmetry-adapted-cluster configuration interaction study of the doublet states of HCl+: Potential energy curves, dipole moments, and transition dipole moments

Laser Ionization Spectroscopy

A velocity map imaging study of the one and two photon dissociations of state-selected DCl+ cations

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Two‐Photon Dissociation Spectroscopy of State‐Selected HCl+ and DCl+ Ions

Cited by 3 publications

References 38 publications

Symmetry-adapted-cluster configuration interaction study of the doublet states of HCl+: Potential energy curves, dipole moments, and transition dipole moments

Symmetry-adapted-cluster configuration interaction study of the doublet states of HCl+: Potential energy curves, dipole moments, and transition dipole moments

Laser Ionization Spectroscopy

A velocity map imaging study of the one and two photon dissociations of state-selected DCl+ cations

Contact Info

Product

Resources

About

Two‐Photon Dissociation Spectroscopy of State‐Selected HCl⁺ and DCl⁺ Ions