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Erschienen in: Measurement Techniques 10/2021

23.01.2021 | STATE STANDARDS

First-Class State Working Standard of Units of Wavelength in the Range from 1.25 to 20.00 μm and of Wavenumber in the Range from 500 to 8000 cm–1

verfasst von: A. Yu. Dunaev, V. S. Bormashov, S. P. Morozova, V. R. Gavrilov

Erschienen in: Measurement Techniques | Ausgabe 10/2021

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Abstract

The first-class State Working Standard of units of wavelength in the range from 1.25 to 20.00 μm and of units of wavenumber in the range from 500 to 8000 cm–1 developed at the All-Russia Research Institute of Optophysical Measurements on the basis of an infrared Fourier spectrometer is presented. The units of wavelength and units of wavenumber are transmitted to working standards in the course of a measurement (performed by an infrared Fourier spectrometer) of the positions of the radiation peaks from two laser sources incorporated into GET 170-2011, the State Primary Special Standard of the units of length and propagation time of a signal in an optical cable, mean power, attenuation, and wavelength for fiber-optic communication systems and information transmission systems. The working standard reproduces the spectral scale with the use of an interference pattern produced by a built-in He–Ne laser in the course of measurements of the spectral distribution of the strength of the internal source. Propagation of the wavelength scale in the range 1.25–20.00 μm and of the wavenumber scale in the range 500–8000 cm–1 is achieved through the introduction of corresponding correction factors to the results of measurements. An accuracy chart that establishes the traceability of an instrument used to measure wavelength and wavenumber to GET 170–2011 is developed and presented.

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Literatur
1.
Zurück zum Zitat A. Yu. Dunaev, Yu. M. Zolotarevskii, S. P. Morozova, et al., “GET 156–2015, State Primary Standard of units of the spectral factors of directed transmission and of diffuse and mirror reflection in the range of wavelengths from 0.2 to 20.0 μm,” Izmer. Tekhn., No. 8, 7–9 (2018), https://doi.org/10.32446/0368-1025it-2018-8-7-9.CrossRef A. Yu. Dunaev, Yu. M. Zolotarevskii, S. P. Morozova, et al., “GET 156–2015, State Primary Standard of units of the spectral factors of directed transmission and of diffuse and mirror reflection in the range of wavelengths from 0.2 to 20.0 μm,” Izmer. Tekhn., No. 8, 7–9 (2018), https://​doi.​org/​10.​32446/​0368-1025it-2018-8-7-9.CrossRef
2.
Zurück zum Zitat A. Yu. Dunaev, Yu. M. Zolotarevskii, S. P. Morozova, et al., “Spectrophotometric instruments of GET 156–2015, State Primary Standard of units of the spectral factors of directed transmission and of diffuse and mirror reflection in the range of wavelengths from 0.2 to 20.0 μm,” Izmer. Tekhn., No. 11, 6–10 (2018), https://doi.org/10.32446/0368-1025it-2018-11-6-10.CrossRef A. Yu. Dunaev, Yu. M. Zolotarevskii, S. P. Morozova, et al., “Spectrophotometric instruments of GET 156–2015, State Primary Standard of units of the spectral factors of directed transmission and of diffuse and mirror reflection in the range of wavelengths from 0.2 to 20.0 μm,” Izmer. Tekhn., No. 11, 6–10 (2018), https://​doi.​org/​10.​32446/​0368-1025it-2018-11-6-10.CrossRef
6.
Zurück zum Zitat A. Kh. Kuptsov and G. N. Zhizhin, Fourier Spectra of Raman Scattering and Fourier Spectra of Infrared Absorption of Polymers. Reference Book, FIZMATLIT, Moscow (2001). A. Kh. Kuptsov and G. N. Zhizhin, Fourier Spectra of Raman Scattering and Fourier Spectra of Infrared Absorption of Polymers. Reference Book, FIZMATLIT, Moscow (2001).
7.
Zurück zum Zitat A. I. Glazov, V. V. Grigor’ev, V. S. Ivanov, et al., “Standards base of VNIIOFI in the fi eld of fi ber-optic information transmission systems,” Foton-Ekspress, No. 8 (128), 18–21 (2015). A. I. Glazov, V. V. Grigor’ev, V. S. Ivanov, et al., “Standards base of VNIIOFI in the fi eld of fi ber-optic information transmission systems,” Foton-Ekspress, No. 8 (128), 18–21 (2015).
Metadaten
Titel
First-Class State Working Standard of Units of Wavelength in the Range from 1.25 to 20.00 μm and of Wavenumber in the Range from 500 to 8000 cm–1
verfasst von
A. Yu. Dunaev
V. S. Bormashov
S. P. Morozova
V. R. Gavrilov
Publikationsdatum
23.01.2021
Verlag
Springer US
Erschienen in
Measurement Techniques / Ausgabe 10/2021
Print ISSN: 0543-1972
Elektronische ISSN: 1573-8906
DOI
https://doi.org/10.1007/s11018-021-01853-0

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