Calculation of the spectrum of ammonia as a biomarker in comb-spectroscopy in the 1.5-mu m spectral region

S. V. Savel’eva, S. A. Pul’kin, V. A. Arnautov, A. A. Kalinichev, S. V. Uvarova, E. N. Borisov, A. I. Kantserov

Результат исследований: Научные публикации в периодических изданияхстатья

2 Цитирования (Scopus)

Выдержка

The absorption spectrum of ammonia in the air at a pressure of 0.01 atm has been calculated. It has been shown that, for the use of ammonia as a biomarker for early diagnosis of diseases, it is appropriate to apply a new method of comb-spectroscopy with the compensation for Doppler broadening at a one-photon transition. Absorption in the 1.5-mu m spectral region should be recorded using a multipass cell. To increase the measurement sensitivity by 2-3 orders of magnitude, it is necessary to transit to the spectral region of 6-10 mu m.
Язык оригиналаанглийский
Страницы (с-по)571–573
Число страниц3
ЖурналRussian Journal of Physical Chemistry B
Том9
Номер выпуска4
DOI
СостояниеОпубликовано - 2015

Отпечаток

biomarkers
Biomarkers
Ammonia
ammonia
Spectroscopy
Doppler effect
transit
spectroscopy
Absorption spectra
Photons
absorption spectra
air
photons
Air
cells
Compensation and Redress

Цитировать

Savel’eva, S. V. ; Pul’kin, S. A. ; Arnautov, V. A. ; Kalinichev, A. A. ; Uvarova, S. V. ; Borisov, E. N. ; Kantserov, A. I. / Calculation of the spectrum of ammonia as a biomarker in comb-spectroscopy in the 1.5-mu m spectral region. В: Russian Journal of Physical Chemistry B. 2015 ; Том 9, № 4. стр. 571–573.
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abstract = "The absorption spectrum of ammonia in the air at a pressure of 0.01 atm has been calculated. It has been shown that, for the use of ammonia as a biomarker for early diagnosis of diseases, it is appropriate to apply a new method of comb-spectroscopy with the compensation for Doppler broadening at a one-photon transition. Absorption in the 1.5-mu m spectral region should be recorded using a multipass cell. To increase the measurement sensitivity by 2-3 orders of magnitude, it is necessary to transit to the spectral region of 6-10 mu m.",
author = "Savel’eva, {S. V.} and Pul’kin, {S. A.} and Arnautov, {V. A.} and Kalinichev, {A. A.} and Uvarova, {S. V.} and Borisov, {E. N.} and Kantserov, {A. I.}",
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Calculation of the spectrum of ammonia as a biomarker in comb-spectroscopy in the 1.5-mu m spectral region. / Savel’eva, S. V.; Pul’kin, S. A.; Arnautov, V. A.; Kalinichev, A. A.; Uvarova, S. V.; Borisov, E. N.; Kantserov, A. I.

В: Russian Journal of Physical Chemistry B, Том 9, № 4, 2015, стр. 571–573.

Результат исследований: Научные публикации в периодических изданияхстатья

TY - JOUR

T1 - Calculation of the spectrum of ammonia as a biomarker in comb-spectroscopy in the 1.5-mu m spectral region

AU - Savel’eva, S. V.

AU - Pul’kin, S. A.

AU - Arnautov, V. A.

AU - Kalinichev, A. A.

AU - Uvarova, S. V.

AU - Borisov, E. N.

AU - Kantserov, A. I.

PY - 2015

Y1 - 2015

N2 - The absorption spectrum of ammonia in the air at a pressure of 0.01 atm has been calculated. It has been shown that, for the use of ammonia as a biomarker for early diagnosis of diseases, it is appropriate to apply a new method of comb-spectroscopy with the compensation for Doppler broadening at a one-photon transition. Absorption in the 1.5-mu m spectral region should be recorded using a multipass cell. To increase the measurement sensitivity by 2-3 orders of magnitude, it is necessary to transit to the spectral region of 6-10 mu m.

AB - The absorption spectrum of ammonia in the air at a pressure of 0.01 atm has been calculated. It has been shown that, for the use of ammonia as a biomarker for early diagnosis of diseases, it is appropriate to apply a new method of comb-spectroscopy with the compensation for Doppler broadening at a one-photon transition. Absorption in the 1.5-mu m spectral region should be recorded using a multipass cell. To increase the measurement sensitivity by 2-3 orders of magnitude, it is necessary to transit to the spectral region of 6-10 mu m.

U2 - 10.1134/S1990793115040314

DO - 10.1134/S1990793115040314

M3 - Article

VL - 9

SP - 571

EP - 573

JO - Russian Journal of Physical Chemistry B

JF - Russian Journal of Physical Chemistry B

SN - 1990-7931

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