High temperature arc studies of infrared radiation from boron and tungsten oxides

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Abstract

Long wavelength infrared emission spectra from boron and tungsten compounds in air were obtained in a d.c. arc jet at 3000–6000°K for the wavelength range 1·2–24 μm. Absolute vibrational band intensities were measured for WO, WO2, WO3, BO, BOF and BF3 molecules. Several unidentified bands were observed and are discussed.

References (14)

  • L.A. Young et al.

    JQSRT

    (1970)
  • K.L. Wray et al.

    JQSRT

    (1971)
  • K.L. Wray et al.

    JQSRT

    (1969)
  • P. Varanasi et al.

    JQSRT

    (1967)
  • W. Weltner et al.

    J. molec. Spectrosc.

    (1965)
  • K.L. Wray et al.
  • K.L. Wray

    JQSRT

    (1969)
There are more references available in the full text version of this article.

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    The peaks at 256 (3 2 0), 706 (6 8 0), 800 cm−1 reflect the bending of OWO, stretching of WO, and stretching of OWO bonds, respectively (Barton et al., 1999; Chintalapalle et al., 2006). The peak forms of 1% Ru/h-WO3 in 934 cm-1 is assigned to asymmetrical stretching of WO (Yoder, 1974; Nagai, 2001). The peak of the flexural vibrations of W–OH bond related to O–H bonding in 1% Ru/h-WO3 appeared in ca. 1800–1400 cm−1 (Garcia-Sanchez et al., 2013; Pfeifer et al., 1995).

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This work was jointly sponsored by Advanced Research Projects Agency, Department of Defense and SAMSO (RSSE) under Contract No. F04701-72-C-0264.

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