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Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics. / Kouzov, A.; Radi, P.; Maksyutenko, P.; Kozlov, D.

The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014). 2014. стр. 28.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференцииРецензирование

Harvard

Kouzov, A, Radi, P, Maksyutenko, P & Kozlov, D 2014, Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics. в The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014). стр. 28. https://doi.org/10.1088/1742-6596/548/1/012016

APA

Kouzov, A., Radi, P., Maksyutenko, P., & Kozlov, D. (2014). Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics. в The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014) (стр. 28) https://doi.org/10.1088/1742-6596/548/1/012016

Vancouver

Kouzov A, Radi P, Maksyutenko P, Kozlov D. Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics. в The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014). 2014. стр. 28 https://doi.org/10.1088/1742-6596/548/1/012016

Author

Kouzov, A. ; Radi, P. ; Maksyutenko, P. ; Kozlov, D. / Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics. The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014). 2014. стр. 28

BibTeX

@inproceedings{c2dfb27213574eb6b9e3822a216b3615,
title = "Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics",
abstract = "The frequency- and polarization-resolved degenerate resonant four-wave mixing (DFWM) spectra of the anisotropic states of the OH radicals produced by photolysis of H 2O2 by a planepolarized laser radiation at 266 nm are reported. The signals in the A 2 Σ + -X 2 Π(0,0) vibronic band were generated at the forward-box configuration with the photodissociation beam propagating along the box axis OZ[1]. The double and triple correlations between the dipole moment m of the dissociative transition in the parent molecule, the recoil velocity vand the angular momentum j of nascent particles –the key characteristics of the reaction path –were the main objectives of the study. To incorporate these correlations into a theoretical picture and to decouple the polarization factors from the molecular properties, the line-space approach was advanced. As a result, the DFWM intensities are expressed via the polarization factors, the Doppler-broadened profiles and the Einstein B-c",
keywords = "Resonant four-wave mixing processes, rotational anisotropy, photolysis",
author = "A. Kouzov and P. Radi and P. Maksyutenko and D. Kozlov",
year = "2014",
doi = "10.1088/1742-6596/548/1/012016",
language = "English",
pages = "28",
booktitle = "The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014)",

}

RIS

TY - GEN

T1 - Resonant Four-Wave Mixing Spectra: A Fresh Look at Photodissociation Dynamics

AU - Kouzov, A.

AU - Radi, P.

AU - Maksyutenko, P.

AU - Kozlov, D.

PY - 2014

Y1 - 2014

N2 - The frequency- and polarization-resolved degenerate resonant four-wave mixing (DFWM) spectra of the anisotropic states of the OH radicals produced by photolysis of H 2O2 by a planepolarized laser radiation at 266 nm are reported. The signals in the A 2 Σ + -X 2 Π(0,0) vibronic band were generated at the forward-box configuration with the photodissociation beam propagating along the box axis OZ[1]. The double and triple correlations between the dipole moment m of the dissociative transition in the parent molecule, the recoil velocity vand the angular momentum j of nascent particles –the key characteristics of the reaction path –were the main objectives of the study. To incorporate these correlations into a theoretical picture and to decouple the polarization factors from the molecular properties, the line-space approach was advanced. As a result, the DFWM intensities are expressed via the polarization factors, the Doppler-broadened profiles and the Einstein B-c

AB - The frequency- and polarization-resolved degenerate resonant four-wave mixing (DFWM) spectra of the anisotropic states of the OH radicals produced by photolysis of H 2O2 by a planepolarized laser radiation at 266 nm are reported. The signals in the A 2 Σ + -X 2 Π(0,0) vibronic band were generated at the forward-box configuration with the photodissociation beam propagating along the box axis OZ[1]. The double and triple correlations between the dipole moment m of the dissociative transition in the parent molecule, the recoil velocity vand the angular momentum j of nascent particles –the key characteristics of the reaction path –were the main objectives of the study. To incorporate these correlations into a theoretical picture and to decouple the polarization factors from the molecular properties, the line-space approach was advanced. As a result, the DFWM intensities are expressed via the polarization factors, the Doppler-broadened profiles and the Einstein B-c

KW - Resonant four-wave mixing processes

KW - rotational anisotropy

KW - photolysis

U2 - 10.1088/1742-6596/548/1/012016

DO - 10.1088/1742-6596/548/1/012016

M3 - Conference contribution

SP - 28

BT - The 22nd International Conference on Spectral Line Shapes (Tullahoma, University of Tennessee,USA, June 1–6, 2014)

ER -

ID: 7032575