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Main Authors: Okuyama, Yoshitaka, Ishikawa, Youichi, Fujita, Daishi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.11643
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author Okuyama, Yoshitaka
Ishikawa, Youichi
Fujita, Daishi
author_facet Okuyama, Yoshitaka
Ishikawa, Youichi
Fujita, Daishi
contents This paper presents an extensive survey of the thermal radiation properties of lithium benzoate. We heated the sample from 313 to 553 K, just below the melting point, while performing an infrared spectroradiometry with an FT-IR spectrometer from 21 to 235 THz (700-7800 cm$^{-1}$). We have provided a detailed analysis of the infrared spectrum data and a comparison of the absorption spectrum of the same sample. It turned out that the recorded spectra are not only different from ordinary absorption spectra but also carry substantial information about the temperature dependence of the population of vibrationally excited states. We conclude by proposing a hypothesis on the thermal excitation mechanism of vibrational energy levels of molecules consistent with the distinct characteristics of the obtained infrared emission spectra.
format Preprint
id arxiv_https___arxiv_org_abs_2509_11643
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Infrared Spectroradiometry of Sodium Benzoate from 21 to 235 THz
Okuyama, Yoshitaka
Ishikawa, Youichi
Fujita, Daishi
Optics
Materials Science
Other Condensed Matter
This paper presents an extensive survey of the thermal radiation properties of lithium benzoate. We heated the sample from 313 to 553 K, just below the melting point, while performing an infrared spectroradiometry with an FT-IR spectrometer from 21 to 235 THz (700-7800 cm$^{-1}$). We have provided a detailed analysis of the infrared spectrum data and a comparison of the absorption spectrum of the same sample. It turned out that the recorded spectra are not only different from ordinary absorption spectra but also carry substantial information about the temperature dependence of the population of vibrationally excited states. We conclude by proposing a hypothesis on the thermal excitation mechanism of vibrational energy levels of molecules consistent with the distinct characteristics of the obtained infrared emission spectra.
title Infrared Spectroradiometry of Sodium Benzoate from 21 to 235 THz
topic Optics
Materials Science
Other Condensed Matter
url https://arxiv.org/abs/2509.11643