# THE $^{18}O_{3}$ ABSOPTION SPECTRUM $3.3 \mu m$.

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 dc.creator Flaud, J.- M. en_US dc.creator Camy-Peyret, C. en_US dc.creator Rinsland, C. P. en_US dc.creator Devi, V. Malathy en_US dc.creator Smith, M. A. H. en_US dc.creator Barbe, A. en_US dc.date.accessioned 2006-06-15T18:24:00Z dc.date.available 2006-06-15T18:24:00Z dc.date.issued 1989 en_US dc.identifier 1989-TE-9 en_US dc.identifier.uri http://hdl.handle.net/1811/17980 dc.description Author Institution: Laboratoire de Physique Mol\'eculaire et Atmosph\'erique, Tour 13. Universit\'e Pierre et Marie Curie et CNRS; Atmospheric Sciences Division, MS 401A, NASA Langley Research Center; Department of Physics, College of William and Mary; Groupe de Spectrom\'etrie Mol\'eculaire et Atmosph\'erique, Facult\'e des Sciences en_US dc.description.abstract Spectra of ozone generated from a 99.98\% pure oxygen sample were recorded covering the $2800-3500 cm^{-1}$ at $0.010 cm^{-1}$ resolution with the McMath Fourier transform interferometer at the National Solar Observatory on Kitt Peak. The first extensive analysis of the 4 bands $3\nu_{3}, 2\nu_{3} +\nu_{1}, 2\nu_{1} +\nu_{3}$ and $3\nu_{1}$ absorbing in this spectral region has been performed leading to a precise set of rotational energy levels for the 4 vibrational interacting states ((003), (201), (102), (300)). These experimental levels were then reproduced with the aid of a Hamiltonian taking into account the various resonances (Coriolis, Darling-Dennison) affecting the levels. Moreover, using the equivalent width method, intensities of lines belonging to the four bands were measured with a relative uncertainty of about 10\% and used to determine the corresponding transition moment constants. Finally, from the vibrational energies, rotational and coupling constants as well as transition moment constants a complete and precise list of the line positions and intensities of the $3\nu_{3}, 2\nu_{3} + \nu_{1}, \nu_{3} + 2\nu_{1}$ and $3\nu_{1}$ bands of $^{16}O_{3}$ has been generated. en_US dc.format.extent 113886 bytes dc.format.mimetype image/jpeg dc.language.iso English en_US dc.publisher Ohio State University en_US dc.title THE $^{18}O_{3}$ ABSOPTION SPECTRUM $3.3 \mu m$. en_US dc.type article en_US