K. A. Vereshchagin, W. Clauss, D. N. Kozlov, D. Yu. Panasenko, V. V. Smirnov, O. M. Stel'makh, V. I. Fabelinskyĭ, V. A. Shakhatov, “Two-wavelength CARS thermometry based on <i>S</i>-branch rotational transitions in the hydrogen molecule”, Kvantovaya Elektronika, 1997, Volume 24, Number 11,Pages <nobr>1049

This article is cited in 2 papers

Laser applications and other topics in quantum electronics

Two-wavelength CARS thermometry based on S-branch rotational transitions in the hydrogen molecule

K. A. Vereshchagin^a, W. Clauss^b, D. N. Kozlov^a, D. Yu. Panasenko^a, V. V. Smirnov^a, O. M. Stel'makh^a, V. I. Fabelinskyĭ^a, V. A. Shakhatov^a

^a Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow
^b Deutsche Forschungsanstalt fur Luft- und Raumfahrt e.V. (DLR), Hauptabteilung Raumfahrtantriebe, Lampoldshausen, Deutschland

Abstract: An investigation was made of the capabilities of a two-wavelength CARS thermometry method based on determination of the integral intensities of rotational lines resulting from the S(1) and S(3) Raman transitions in the hydrogen molecule. The gas temperatures were measured in a heated cell and in a hydrogen – air burner at atmospheric pressure. An analysis was made of the factors governing the precision of temperature measurements in a time equal to the duration of one laser pulse (~10 ns). The relative standard deviation σ_T of the temperatures in a heated cell, measured with the aid of 300 laser pulses, was 1.5% at T = 296 K and 8% at T = 1000 K; for the measurements on the burner this deviation was 11% at ~1400 K.

PACS: 07.20.Dt, 42.62.Eh, 42.65.Dr

Received: 08.07.1997