A theoretical method to compute infrared absorption spectra when a molecule is interacting with an arbitrary nonuniform electric field such as near-fields is developed and numerically applied to simple model systems. The method is based on the multipolar Hamiltonian where the light-matter interaction is described by a spatial integral of the inner product of the molecular polarization and applied electric field. The computation scheme is developed under the harmonic approximation for the molecular vibrations and the framework of modern electronic structure calculations such as the density functional theory. Infrared reflection absorption and near-field infrared absorption are considered as model systems. The obtained IR spectra successfully reflect the spatial structure of the applied electric field and corresponding vibrational modes, demonstrating applicability of the present method to analyze modern nanovibrational spectroscopy using near-fields. The present method can use arbitral electric fields and thus can integrate two fields such as computational chemistry and electromagnetics.
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28 March 2016
Research Article|
March 31 2016
Generalized theoretical method for the interaction between arbitrary nonuniform electric field and molecular vibrations: Toward near-field infrared spectroscopy and microscopy
Takeshi Iwasa;
Takeshi Iwasa
a)
Department of Chemistry, Faculty of Science,
Hokkaido University
, Sapporo 060-0810, Japan
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Masato Takenaka;
Masato Takenaka
Department of Chemistry, Faculty of Science,
Hokkaido University
, Sapporo 060-0810, Japan
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Tetsuya Taketsugu
Tetsuya Taketsugu
Department of Chemistry, Faculty of Science,
Hokkaido University
, Sapporo 060-0810, Japan
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J. Chem. Phys. 144, 124116 (2016)
Article history
Received:
January 04 2016
Accepted:
March 16 2016
Citation
Takeshi Iwasa, Masato Takenaka, Tetsuya Taketsugu; Generalized theoretical method for the interaction between arbitrary nonuniform electric field and molecular vibrations: Toward near-field infrared spectroscopy and microscopy. J. Chem. Phys. 28 March 2016; 144 (12): 124116. https://doi.org/10.1063/1.4944937
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