Standard

Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism. / Makarov, D. S.; Filippov, N. N.; Tretyakov, M. Yu.

в: OPTICS AND SPECTROSCOPY, Том 105, № 1, 07.2008, стр. 7-13.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Makarov, DS, Filippov, NN & Tretyakov, MY 2008, 'Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism', OPTICS AND SPECTROSCOPY, Том. 105, № 1, стр. 7-13. https://doi.org/10.1134/S0030400X08070023

APA

Makarov, D. S., Filippov, N. N., & Tretyakov, M. Y. (2008). Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism. OPTICS AND SPECTROSCOPY, 105(1), 7-13. https://doi.org/10.1134/S0030400X08070023

Vancouver

Makarov DS, Filippov NN, Tretyakov MY. Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism. OPTICS AND SPECTROSCOPY. 2008 Июль;105(1):7-13. https://doi.org/10.1134/S0030400X08070023

Author

Makarov, D. S. ; Filippov, N. N. ; Tretyakov, M. Yu. / Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism. в: OPTICS AND SPECTROSCOPY. 2008 ; Том 105, № 1. стр. 7-13.

BibTeX

@article{e85ce667889a4d5cb675dc4936408ee0,
title = "Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism",
abstract = "The profile of the oxygen absorption band centered at 60 GHz is modeled using the formalism of memory functions. The memory function determines the relation between the initial and final states of a molecule after its collision. The model profile takes into account the spectral exchange and contains two parameters, which depend on temperature and pressure. These parameters characterize the probabilities of spectral exchange between series of lines (branches) corresponding to molecular transitions of different types. To describe the absorption profile in the frequency range of 0-120 GHz in terms of the model proposed, the {"}+{"} and {"}-{"} branches of fine structure transitions and the series of nonresonance lines with frequencies on the order of 10(-3)-10(-5) GHz are taken into account. The values of the parameters that take into account the spectral exchange are found from the condition of the best fit between the developed model profile and the profile calculated according to the millimeter-wave propagation model. The parameters found have physically substantiated and smooth temperature dependences, which confirms the adequacy of the model. The difference between these models does not exceed 2-3%, which corresponds to the declared uncertainty.",
keywords = "SPECTRUM, LINES",
author = "Makarov, {D. S.} and Filippov, {N. N.} and Tretyakov, {M. Yu.}",
year = "2008",
month = jul,
doi = "10.1134/S0030400X08070023",
language = "Английский",
volume = "105",
pages = "7--13",
journal = "OPTICS AND SPECTROSCOPY",
issn = "0030-400X",
publisher = "Pleiades Publishing",
number = "1",

}

RIS

TY - JOUR

T1 - Modeling of the absorption profile of the 60 GHz band of atmospheric oxygen using the memory function formalism

AU - Makarov, D. S.

AU - Filippov, N. N.

AU - Tretyakov, M. Yu.

PY - 2008/7

Y1 - 2008/7

N2 - The profile of the oxygen absorption band centered at 60 GHz is modeled using the formalism of memory functions. The memory function determines the relation between the initial and final states of a molecule after its collision. The model profile takes into account the spectral exchange and contains two parameters, which depend on temperature and pressure. These parameters characterize the probabilities of spectral exchange between series of lines (branches) corresponding to molecular transitions of different types. To describe the absorption profile in the frequency range of 0-120 GHz in terms of the model proposed, the "+" and "-" branches of fine structure transitions and the series of nonresonance lines with frequencies on the order of 10(-3)-10(-5) GHz are taken into account. The values of the parameters that take into account the spectral exchange are found from the condition of the best fit between the developed model profile and the profile calculated according to the millimeter-wave propagation model. The parameters found have physically substantiated and smooth temperature dependences, which confirms the adequacy of the model. The difference between these models does not exceed 2-3%, which corresponds to the declared uncertainty.

AB - The profile of the oxygen absorption band centered at 60 GHz is modeled using the formalism of memory functions. The memory function determines the relation between the initial and final states of a molecule after its collision. The model profile takes into account the spectral exchange and contains two parameters, which depend on temperature and pressure. These parameters characterize the probabilities of spectral exchange between series of lines (branches) corresponding to molecular transitions of different types. To describe the absorption profile in the frequency range of 0-120 GHz in terms of the model proposed, the "+" and "-" branches of fine structure transitions and the series of nonresonance lines with frequencies on the order of 10(-3)-10(-5) GHz are taken into account. The values of the parameters that take into account the spectral exchange are found from the condition of the best fit between the developed model profile and the profile calculated according to the millimeter-wave propagation model. The parameters found have physically substantiated and smooth temperature dependences, which confirms the adequacy of the model. The difference between these models does not exceed 2-3%, which corresponds to the declared uncertainty.

KW - SPECTRUM

KW - LINES

U2 - 10.1134/S0030400X08070023

DO - 10.1134/S0030400X08070023

M3 - статья

VL - 105

SP - 7

EP - 13

JO - OPTICS AND SPECTROSCOPY

JF - OPTICS AND SPECTROSCOPY

SN - 0030-400X

IS - 1

ER -

ID: 41409273