J. G. Loeser scite author profile

Measurement of the far-infrared vibration-rotation tunneling spectrum of the perdeuterated water tetramer is described. Precisely determined rotational constants and relative intensity measurements indicate a cyclic quasi-planar minimum energy structure, which is in agreement with recent ab initio calculations. The O-O separation deduced from the data indicates a rapid exponential convergence to the ordered bulk value with increasing cluster size. Observed quantum tunneling splittings are interpreted in terms of hydrogen bond rearrangements connecting two degenerate structures.

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Dynamics of Structural Rearrangements in the Water Trimer

Liu¹,

Loeser²,

Elrod³

et al. 1994

J. Am. Chem. Soc.

197

175

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Angular correlations in chemical reactions. Statistical theory for four-vector correlations

BARNWELL¹,

Loeser²,

Herschbach³

1983

J. Phys. Chem.

101

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High resolution threshold photodetachment spectroscopy of negative ions

Kitsopoulos

Waller

Loeser

et al. 1989

Chemical Physics Letters

109

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Vibrational and K′a dependencies of the multidimensional tunneling dynamics in the 82.6 cm−1 intermolecular vibration of the water dimer-d4

Pugliano

Cruzan

Loeser

et al. 1993

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Using tunable far infrared laser absorption spectroscopy, 12 vibration-rotation-tunneling (VRT) subbands, consisting of approximately 230 transitions have been measured and analyzed for an 82.6 cm -1 intermolecular vibration of the water dimer-d 4 • Each of the VRT subbands originate from K; = 0 and terminate in either K~ = 0 or 1. These data provide a complete characterization of the tunneling dynamics in the vibrationally excited state as well as definitive symmetry labels for all VRT energy levels. Furthermore, an accurate value for the A' rotational constant of 122.9 GHz is found to agree well with its corresponding ground state value. All other excited state rotational constants are fitted, and discussed in terms of the corresponding ground state constants. In this vibration, the quantum tunneling motions are determined.to exhibit large dependencies with both the K~ quantum number and the vibrational coordinate, as is evidenced by the measured tunneling splittings. The generalized internal-axis-method (lAM) treatment, which has been developed to model the ground state tunneling dynamics, is considered for the qualitative description of each tunneling pathway, however, the variation of tunneling splittings with vibrational excitation indicate that the high barrier approximation does not appear to be applicable in the excited state. The data are consistent with a motion possessing a' symmetry, and the vibration is assigned as the Vs acceptor bending coordinate. This assignment is in agreement with the vibrational symmetry determined from the data, the results of high level ab initio calculations, and preliminary data assigned to the analogous vibration in D 2 0-DOH. 6600

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J. G. Loeser

Quantifying Hydrogen Bond Cooperativity in Water: VRT Spectroscopy of the Water Tetramer

Dynamics of Structural Rearrangements in the Water Trimer

Angular correlations in chemical reactions. Statistical theory for four-vector correlations

High resolution threshold photodetachment spectroscopy of negative ions

Vibrational and K′a dependencies of the multidimensional tunneling dynamics in the 82.6 cm−1 intermolecular vibration of the water dimer-d4

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