Raman scattering tensors in thymine molecule from an ab initio MO calculation

Masamichi Tsuboi; Akiko Kumakura; Misako Aida; Motohisa Kaneko; Michel Dupuis; Koichi Ushizawa; Toyotoshi Ueda

doi:10.1016/s1386-1425(96)01812-4

Raman scattering tensors in thymine molecule from an ab initio MO calculation

Masamichi Tsuboi
, Akiko Kumakura
, Misako Aida
, Motohisa Kaneko
, Michel Dupuis
, Koichi Ushizawa
, Toyotoshi Ueda

Department of Chemical and Biological Engineering

Iryo Sosei University
National Cancer Center Japan
Meisei University

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Ab initio SCF MO calculations have been made of the thymine molecule for the permanent polarizability and the polarizability derivatives with respect to the normal coordinates. The latter correspond to the components of the Raman tensors, and each of these tensors was brought into a visualized form by a transformation of the tensor axes into the principal system. For a comparison with such computational findings, a polarized Raman spectroscopic measurement has been made of a single crystal of thymine with 488.0 nm excitation. For most of the in-plane vibrations, calculated tensors were found to be well correlated with the observed Raman scattering anisotropy. On the basis of such correlations, discussions are given as for the polarizability oscillations caused by the atomic displacements in the molecule.

Original language	English
Pages (from-to)	409-419
Number of pages	11
Journal	Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy
Volume	53
Issue number	3 PART A
DOIs	https://doi.org/10.1016/s1386-1425(96)01812-4
State	Published - Mar 1997

Keywords

ab initio SCF MO
Raman tensor
Thymine

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10.1016/s1386-1425(96)01812-4

Cite this

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title = "Raman scattering tensors in thymine molecule from an ab initio MO calculation",

abstract = "Ab initio SCF MO calculations have been made of the thymine molecule for the permanent polarizability and the polarizability derivatives with respect to the normal coordinates. The latter correspond to the components of the Raman tensors, and each of these tensors was brought into a visualized form by a transformation of the tensor axes into the principal system. For a comparison with such computational findings, a polarized Raman spectroscopic measurement has been made of a single crystal of thymine with 488.0 nm excitation. For most of the in-plane vibrations, calculated tensors were found to be well correlated with the observed Raman scattering anisotropy. On the basis of such correlations, discussions are given as for the polarizability oscillations caused by the atomic displacements in the molecule.",

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year = "1997",

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T1 - Raman scattering tensors in thymine molecule from an ab initio MO calculation

AU - Tsuboi, Masamichi

AU - Kumakura, Akiko

AU - Aida, Misako

AU - Kaneko, Motohisa

AU - Dupuis, Michel

AU - Ushizawa, Koichi

AU - Ueda, Toyotoshi

PY - 1997/3

Y1 - 1997/3

N2 - Ab initio SCF MO calculations have been made of the thymine molecule for the permanent polarizability and the polarizability derivatives with respect to the normal coordinates. The latter correspond to the components of the Raman tensors, and each of these tensors was brought into a visualized form by a transformation of the tensor axes into the principal system. For a comparison with such computational findings, a polarized Raman spectroscopic measurement has been made of a single crystal of thymine with 488.0 nm excitation. For most of the in-plane vibrations, calculated tensors were found to be well correlated with the observed Raman scattering anisotropy. On the basis of such correlations, discussions are given as for the polarizability oscillations caused by the atomic displacements in the molecule.

AB - Ab initio SCF MO calculations have been made of the thymine molecule for the permanent polarizability and the polarizability derivatives with respect to the normal coordinates. The latter correspond to the components of the Raman tensors, and each of these tensors was brought into a visualized form by a transformation of the tensor axes into the principal system. For a comparison with such computational findings, a polarized Raman spectroscopic measurement has been made of a single crystal of thymine with 488.0 nm excitation. For most of the in-plane vibrations, calculated tensors were found to be well correlated with the observed Raman scattering anisotropy. On the basis of such correlations, discussions are given as for the polarizability oscillations caused by the atomic displacements in the molecule.

KW - ab initio SCF MO

KW - Raman tensor

KW - Thymine

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DO - 10.1016/s1386-1425(96)01812-4

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AN - SCOPUS:0001149822

SN - 1386-1425

VL - 53

SP - 409

EP - 419

JO - Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy

JF - Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy

IS - 3 PART A

ER -

Raman scattering tensors in thymine molecule from an ab initio MO calculation

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Keywords

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