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INVESTIGATIONS OF THE COLLISION-INDUCED ABSORPTION OF $O_{2}$ NEAR $6.4 \mu$m IN PURE $O_{2}$ AND $O_{2}/N_{2}$ MIXTURES

Please use this identifier to cite or link to this item: http://hdl.handle.net/1811/19133

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dc.creator Lugez, Catherine L. en_US
dc.creator Solodov, A. M. en_US
dc.creator Lafferty, W. J. en_US
dc.creator Fraser, G. T. en_US
dc.date.accessioned 2006-06-15T19:10:33Z
dc.date.available 2006-06-15T19:10:33Z
dc.date.issued 1998 en_US
dc.identifier 1998-WF-01 en_US
dc.identifier.uri http://hdl.handle.net/1811/19133
dc.description Author Institution: OPTICAL TECHNOLOGY DIVISION, NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY en_US
dc.description.abstract Measurements of the collision-induced absorption of $O_{2}$ in the vicinity of the electric-dipole-forbidden vibrational fundamental have been made in pure $O_{2}, O_{2}/N_{2}$ and $Ar/O_{2}$ mixtures. The goal is to provide reliable absorption coefficients to allow accurate retrievals of stratospheric concentration profiles of $H_{2}O$ vapor, $NO_{2}$, and sulfate aerosols from limb-viewing filter radiometers, such as those mounted on the UARS and future EOS platforms. Here, spectra were recorded at a resolution of $0.5 cm^{-1}$ using a Fourier-transform infrared spectrometer. Measurements were made using an optical pathlength of 84 m, sample densities up to approximately 8 amagats, and sample temperatures between 225 K and 300 K. The present results are in good agreement with the earlier less precise measurements of Orlando et al. on $O_{2}$ and $O_{2}/N_{2}$ mixtures and Thibault et al. on pure $O_{2}$. Studies of $Ar/O_{2}$ mixtures indicate that the observed structure on the high-frequency shoulder of the band, previously attributed to dimer bound states by Henderson and Ewing, is more likely due to line mixing of pure quadrupole transitions of $O_{2}$, as originally suggested by Vigasin. en_US
dc.format.extent 133493 bytes
dc.format.mimetype image/jpeg
dc.language.iso English en_US
dc.title INVESTIGATIONS OF THE COLLISION-INDUCED ABSORPTION OF $O_{2}$ NEAR $6.4 \mu$m IN PURE $O_{2}$ AND $O_{2}/N_{2}$ MIXTURES en_US
dc.type article en_US