S. Carter scite author profile

S. Carter

4Publications

85Citation Statements Received

0Citation Statements Given

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118

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Goethe University Frankfurt

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A theoretical rotationally resolved infrared spectrum for H2O+ (X 2B1)

Weis

Carter

Rosmus

et al. 1989

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Three-dimensional potential energy and electric dipole moment functions for the electronic ground state of H2O+ have been calculated from highly correlated multiconfiguration reference configuration interaction (MRCI) electronic wave functions. The analytic representations of these functions have been used in vibrational and perturbational calculations of the rovibrational absorption spectrum of H2O+. The quartic force fields in normal coordinates have been employed in the evaluation of the equilibrium spectroscopic constants in H2O+, D2O+, and HDO+ by perturbation theory. The equilibrium structure, vibrational band origins, centrifugal distortion constants and rotational energy levels agree very well with the available experimental data. Absolute vibrational band intensities have been calculated from the dipole moment functions and are compared with theoretical integrated band intensities. The radiative lifetimes of excited vibrational states exhibit mode specific variations. The rotationally resolved room temperature absorption spectra have been evaluated ab initio for the pure rotational and the ν2, 2ν2, ν1, ν3, and 3ν2 transitions. The rovibrational electric dipole transition matrix elements and absolute line intensities are given for the most intense transitions. These data take full account of anharmonicity effects and vibration–rotation coupling.

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Theoretical calculations of the vibrational transition probabilities in hydrogen selenide

et al. 1988

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Potential energy and dipole moment functions of the HCS radical

et al. 1990

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Vibrational radiative lifetimes in H2Se and HCS−

Senekowitsch

Carter

Werner

et al. 1987

Chemical Physics Letters

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S. Carter

A theoretical rotationally resolved infrared spectrum for H2O+ (X 2B1)

Theoretical calculations of the vibrational transition probabilities in hydrogen selenide

Potential energy and dipole moment functions of the HCS radical

Vibrational radiative lifetimes in H2Se and HCS−

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