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  * <LI>     Dax, A., Wells, J. S., Hollberg, L., Maki, A. G. and Urban, W., Sub-Doppler frequency measurements on OCS at 87 THz ( 3.4 m) with the CO overtone laser. Journal of Molecular Spectroscopy, 1994, 168, 416-428. </LI>
  * <LI>     Belafhal, A., Fayt, A. and Guelachvili, G., Fourier transform spectroscopy of carbonyl sulfide from 1800 to 3120 cm-1: the normal species. Journal of Molecular Spectroscopy, 1995, 174, 1-9. </LI>
  * <LI>     Belafhal, A., Fayt, A. and Guelachvili, G., Fourier transform spectroscopy of carbonyl sulfide from 1800 to 3120 cm-1: the isotopomers. 1997, private communication. </LI>
  * <LI>     Wells, J. S., Dax, A., Hollberg, L. and Maki, A. G., Sub- Doppler frequency measurements on OCS near 1689 and 1885 cm-1. Journal of Molecular Spectroscopy, 1995, 170, 75-81. </LI>
  * <LI>     Saupe, S., Wappelhorst, M. H., Meyer, B., Urban, W. and Maki, A. G., Sub-Doppler heterodyne frequency measurements near 5 m with a CO-laser sideband system: improved calibration tables for carbonyl sulfide transitions. Journal of Molecular Spectroscopy, 1996, 175, 190-197. </LI>
  * <LI>     Fichoux, H., Rusinek, E., Khelkal, M., Legrand, J., Herlemont, F. and Fayt, A., Saturation sideband CO2 laser spectroscopy of the overtone band 2nu2 and its hot band 3nu2-nu2 of carbonyl sulfide. Journal of Molecular Spectroscopy, 1998, in press. </LI>
  * <LI>     Hornberger, Ch., Boor, B., Stuber, R., Demtrider, W., Naïm, S. and Fayt, A., Sensitive overtone spectroscopy of carbonyl sulfide between 6130 and 6650 cm-1 and at 12000 cm-1. Journal of Molecular Spectroscopy , 1996, 179, 237-245. </LI>
  * <LI>     Kagann, R. H., Infrared absorption intensities for OCS. Journal of Molecular Spectroscopy, 1982, 94, 192-198. </LI>
  OCS * <LI>     Dang-Nhu, M. and Guelachvili, G., Intensites des raies d'absorption dans la bande nu2 + nu3 de 16O12C32S. Molecular Physics, 1986, 58, 535-540. </LI>
  * <LI>     Bouanich, J.-P., Blanquet, G., Walrand, J. and Courtoy, C. P., Diode laser measurements of line strengths and collisional half-widths in the nu1 band of OCS at 298 and 200 K. Journal of Quantitative Spectroscopy & Radiative Transfer, 1986, 36, 295- 306. </LI>
  * <LI>     Blanquet, G., Coupe, P., Derie, F. and Walrand, J., Spectral intensities in the (220) band of carbonyl sulfide. Journal of Molecular Spectroscopy, 1991, 147, 543-545. </LI>
   OCS * <LI>     Errera, Q., Vander Auwera, J., Belafhal, A. and Fayt, A., Absolute intensities in 16O12C32S: the 2500-3100 cm-1 region. Journal of Molecular Spectroscopy, 1995, 173, 347-369. </LI>
  * <LI>     Strugariu, T., Naim, S., Fayt, A., Bredohl, H., Blavier, J.-F. and Dubois, I., Fourier transform spectroscopy of 18O- enriched carbonyl sulfide from 1825 to 2700 cm-1. Journal of Molecular Spectroscopy, 1998, in press. </LI>
   OCS * <LI>      Bermejo, D., Domenech, J. L., Santos, J., Bouanich, J.-P.    and Blanquet, G., Absolute line intensities in the 2nu3 band of    16O12C32S. Journal of Molecular Spectroscopy, 1997, 185, 26-    30. </LI>
  * <LI>     Mouchet, A.,Blanquet, G., Herbin, P., Walrand, J., Courtoy, C.P. and Bouanich, J-P., Diode-Laser Measurements of N2 broadened line widths in the nu1 band of OCS. Canadian Journal of Physics, 1985, 63, 527-531. </LI>
  * <LI>    Bouanich, J.-P., Walrand, J., Alberty, S. and Blanquet, G., Diode-Laser Measurements of oxygen-broadened line widths in the nu1 band of OCS. Journal of Molecular Spectroscopy, 1987, 123, 37-47. </LI>
  * <LI>      Wiedemann,  G.,  Bjoraker,  G.L.  and  Jennings,  D.E.,     Detection of 13C-ethane in Jupiter's atmosphere. Astrophysics     Journal, 1991, 383, L29-L32. </LI>
  * <LI>     Orton, G.S., Lacy, J.H., Achtermann, J.M., Parmar, P. and Blass, W.E., Thermal spectroscopy of Neptune: The stratospheric temperature, hydrocarbon abundancees and isotopic ratios. Icarus, 1992, 100, 541-555 </LI>
   C2H6 * <LI>     Weber, M., Blass, W.E., Reuter, D.C., Jennings, D.E. and Hillman, J.J., The ground state of 13C12CH6 (ethane) derived from 12 at 12.2 m. Journal of Molecular Spectroscopy, 1993, 159, 388-394. </LI>
  C2H6 * <LI>     Weber, M., Reuter, D.C., Sirota, J.M., Blass, W.E.and Hillman, J.J., Fourier transform infrared and tunable diode laser spectra of the 13C12CH6 12 torsion-vibration-rotation band: frequencies, intensities, and barriers to internal rotation. Journal of Chemical Physics, 1994, 100, 8681-8688. </LI>
  C2H6 * <LI>     Weber, M., Reuter, D.C. and Sirota, J.M., A spectral atlas of the 12 fundamental of 13C12CH6 in the 12m region. NASA Technical Memorandum 104601, Greenbelt, 1994. </LI>
  * <LI>     Nikitin, A., Champion, J.P., Tyuterev, Vl.G. and Brown, L.R., The high resolution infrared spectrum of CH3D in the region 900-1700 cm-1. Journal of Molecular Spectroscopy, 1997, 184, 120-128. </LI>
  * <LI>     Nikitin, A., Champion, J.P., Tyuterev, Vl.G., Brown, L.R., Klee, S., Mellau, G. and Lock, M., New assignments of hot band transitions of CH3D in the region 900 - 1700 cm-1 and recent results on the analysis of the IR absorption spectrum in the region 1900 - 3200 cm-1. Fifteenth Colloquium on High Resolution Spectroscopy, Glasgow, 1997. </LI>
  * <LI>    Weber, M., Blass, W.E., Halsey, G.W., Hillman J.J. and Maguire, W.C., l-resonance effects in the nu5, 2nu5, and nu4+5nu4 bands of C2H2 and 13C12CH2 near 13.7m. Spectrochimica Acta, 1992, 48A, 1203-1226. </LI>
  * <LI>     Weber, M., Blass, W.E., Nadler, S., Halsey, G.W., Maguire, W.C. and Hillman, J.J., l-resonance effects in C2H2 near 13.7m. Part II: The two quantum hot bands. Spectrochimica Acta, 1993, 49A, 1659-1681. </LI>
  * <LI>     Weber, M., Blass, W.E., Halsey, G.W. and Hillman, J.J, l- resonance perturbation of IR intensities in 12C2H2 near 13.7m. Journal of Molecular Spectroscopy, 1994, 165, 107-123. </LI>
  * <LI> Lambeau, Ch., Fayt, A., Duncan, J. L. and Nakagawa, T., The absorption of ethylene in the 10-m region. Journal of Molecular Spectroscopy, 1980, 81, 227-247. </LI>
  * <LI> Cauuet, I., Walrand, J., Blanquet, G., Valentin, A., Henry, L., Lambeau, Ch., De Vleeschouwer, M. and Fayt, A., Extension to third-order Coriolis terms of the analysis of 10, 7, and 4 levels of ethylene on the basis of Fourier transform and diode laser spectra. Journal of Molecular Spectroscopy, 1990, 139, 191-214. </LI>
  * <LI> Legrand, J., Azizi, M., Herlemont, F. and Fayt, A., Saturation spectroscopy of C2H4 using a CO2 laser sideband spectrometer. Journal of Molecular Spectroscopy, 1995, 171, 13- 21. </LI>
  * <LI> Rusinek, E., Fichoux, H., Khelkhal, M., Herlemont, F., Legrand, J. and Fayt, A., Sub-Doppler study of the nu7 band of C2H4 with a CO2 laser sideband spectrometer. Journal of Molecular Spectroscopy, 1998, in press. </LI>
  * <LI> Herlemont, F., Lyszyk, M., Lemaire, J., Lambeau, Ch., De Vleeschouwer, M. and Fayt, A., Saturated absorption of C2H4 with a CO2 waveguide laser. Journal of Molecular Spectroscopy, 1982, 94, 309-315. </LI>
  * <LI> Blass, W.E., Jennings, L., Ewing, A.C., Daunt, S.J., Weber, M.C., Senesac, L., Hager, S., Hillman, J.J., Reuter, D.C. and Sirota, J.M., Journal of Quantitative Spectroscopy and Radiative Transfer, 1998, in press. </LI>
  * <LI>     Brannon, J.F. and Varanasi, P., Tunable Diode-Laser measurements on the 951.7393 cm-1 line of C2H4 -12C at planetary atmospheric temperatures. Journal of Quantitative Spectroscopy and Radiative Transfer, 1992, 47, 237-242; </LI>
  * <LI> Brannon, J.F. and Varanasi, P., Tunable Diode-Laser measurements on the 951.7393 cm-1 line of C2H4 -12C at planetary atmospheric temperatures. Journal of Quantitative Spectroscopy and Radiative Transfer, 1993, 6, 695-696. </LI>
  * <LI> Pine, A. S., Tunable Laser Survey of Molecular Air    Polluants,  Final  Report,  NSF/ASRA/DAR  78-24562,   MIT,    Lexington, Mass., 1980. </LI>
  * <LI> Fayt, A., Gulaczyk, I., Oomens, J., Reuss, J., Sartakov, B., Mellau, G. and Klee, S., Cold and hot bands of ethylene in the 3000 cm-1 region, The 14th International Conference on High Resolution Molecular Spectroscopy, Prague (Czech Republic), Sept. 9-13, 1996. </LI>
  * <LI> Sartakov, B. G., Oomens, J., Reuss, J. and Fayt, A., Interaction of vibrational fundamental and combination states of ethylene in the 3m region. Journal of Molecular Spectroscopy, 1997, 185, 31-47. </LI>
  * <LI> Dang-Nhu, M., Pine, A. S., Fayt, A., De Vleeschouwer, M. and Lambeau, Ch., Les intensites dans la pentade nu11, nu2+nu12, 2nu10+nu12, nu9 et nu3+nu8+nu10 de 12C2H4. Canadian Journal of Physics, 1983, 61, 514-521. </LI>
  * <LI> Herzberg,  G.,  Molecular  Spectra  and  Molecular Structure. Vol.2. Infrared and Raman Spectra of Polyatomic Molecules. D. Van Nostrand Company, New York, 1945, pp. 325- 328. </LI>
  * <LI>  Chance, K., Jucks, K.W., Johnson, D.G. and Traub, W.A.,    The Smithonian Astrophysical Observatory database. Journal of    Quantitative Spectroscopy & Radiative Transfer, 1994, 52, 447-    458. </LI>
  * <LI>  Flaud, J.-M, Camy-Peyret, C., Johns, J.W.C. and Carli, B., The far infrared spectrum of H2O2: first observation of the staggering of the levels and determination of the cis barrier. Journal of Chemical Physics , 1989, 91, 1504-1510. </LI>
  * <LI>     Camy-Peyret, C., Flaud, J.-M., Johns, J.W.C. and Noel, M., Torsion-vibration interaction in H2O2: first high resolution observation of nu3. Journal of Molecular Spectroscopy, 1992, 155, 84-104. </LI>
  * <LI>     Perrin, A., Flaud, J.-M., Camy-Peyret, C., Schermaul, R., Winnewisser, M., Mandin, J-Y., Dana, V., Badaoui, M. and Koput, J., Line intensities in the far infrared spectrum of H2O2. Journal of Molecular Spectroscopy, 1996, 176, 287-296. </LI>
  * <LI>     Malathy Devi, V., Rinsland, C.P., Smith, M.A.H., Benner, D.C. and Fridovitch, B., Tunable diode laser measurements of air-broadened linewidths in the nu6 band of H2O2. Applied Optics, 1986, 25, 1844-1847. </LI>
  * <LI>     Brown, L.R.,Crisp,.J., Crisp, D., Naumenko, O.V., Smirnov, M.A. and Sinitsa, L.N., The absorption spectrum of H2S between 2150 and 4260 cm-1. Journal of Molecular Spectroscopy, 1998, 187, in press. </LI>
  * <LI>     Bykov, A.D., Naumenko, O.V., Smirnov, M.A., Sinitsa, L.N., Brown, L.R., Crisp, J. and Crisp, D., The infrared spectrum of H2S from 1 to 5 m. Canadian Journal of Physics, 1994, 72, 989- 1000. </LI>
  * <LI>     Waschull, J., Kuhnemann, F. and Sumpf, B., Self- broadening, air, and helium broadening in the nu2 band of H2S. Journal of Molecular Spectroscopy, 1994, 165, 150-158. </LI>
  * <LI>     Meusel, I., Sumpf, B. and Kronfeldt, H.D., Nitrogen broadening of absorption lines in the nu1, nu2, and nu3 bands of H2S determined applying an IR diode-laser spectrometer. Journal of Molecular  Spectroscopy, 1997, 185, 370-373. </LI>
  * <LI> Goldman, A., Rinsland, C. P., Murcray, F. J., Blatherwick, R. D. and Murcray, D. G., High resolution studies of heavy NOy molecules in atmospheric spectra. Journal of Quantitative Spectroscopy & Radiative Transfer, 1994, 52, 367- 377. </LI>
  * <LI> Bell, W., Duxbury, G. and Stuart, D. D., High- resolution spectra of the nu4 band of chlorine nitrate. Journal of Molecular Spectroscopy, 1992, 152, 283-297. </LI>
  * <LI>     World Meteorological Organization (WMO), Atmospheric ozone: Assessment of our understanding of the process controlling its present distribution and hange, Rep.16, 1985, Vol. II, chap.11, 632-647. </LI>
  * <LI>     Massie, S.T., Goldman, A., McDaniel, A.H., Cantrell, C.A., Davidson, J.A., Shetter, R.E. and Calvert, J.G., Temperature dependent infrared cross sections for CFC-11, CFC-12, CFC-13, CFC-14, CFC-22, CFC-113, CFC-114, and FC-115. NCAR. Technical Note TN-358+STR, 1991. </LI>
  * <LI>     McDaniel, A.H., Cantrell, C.A., Davidson, J.A., Shetter, R.E. and Calvert, J.G., The temperature dependent infrared cross sections for CFC-11, CFC-12, CFC-13, CFC-14, CFC-22, CFC- 113, CFC-114, and CFC-115. Journal of Atmospheric Chemistry, 1991, 12, 211-227. </LI>
  * <LI>     Li, Z. and Varanasi, P., Measurement of the absorption cross-sections of CFC-11 at conditions representing various model atmospheres. Journal of Quantitative Spectroscopy & Radiative Transfer, 1994, 52, p.137-144. </LI>
  * <LI>     Varanasi, P. and Nemtchinov, V., Thermal infrared absorption coefficients of CFC-12 at atmospheric conditions. Journal of Quantitative Spectroscopy & Radiative Transfer, 1994, 51, 679-687. </LI>
  * <LI>     Varanasi, P., Li, Z., Nemtchinov, V. and Cherukuri, A., Spectral absorption coefficient data on HCFC-22 and SF6 for remote sensing applications. Journal of Quantitative Spectroscopy & Radiative Transfer, 1994, 52, 323-332. </LI>
  * <LI>     Smith, K., Newnham, D., Page, M., Ballard, J. and Duxbury, G., Infrared band strengths and absorption cross-sections of HCF-32 vapor. Journal of Quantitative Spectroscopy & Radiative Transfer, 1996, 56, 77-82. </LI>
  * <LI>     Smith, K., Newnham, D., Page, M., Ballard, J. and Duxbury, G., Infrared absorption cross-sections and integrated absorption intensities of HFC-134 and HFC-143a vapour. Journal of Quantitative Spectroscopy & Radiative Transfer, 1998, 59, 437-451. </LI>
  CFC-14, CFC-11,CFC-12, CFC-113, CFC-114 * <LI>     Massie, S.T., Goldman, A., Murcray, D.G. and Gille, J.C., Approximate absorption cross sections of F12, F11, ClONO2, N2O5, HNO3, CCl4, CF4, F21, F113, F114, and HNO4. Applied Optics, 1985, 24, 3426-3427. </LI>
JPL * <LI> <A href=http://spec.jpl.nasa.gov> Jet Propulsion Laboratory Molecular Spectroscopy Catalog </A> </LI>
SAO92 * <LI> <A href=http://firs-www.harvard.edu/dir/sao92> The Smithsonian Astroohysical Observatory line database SAO92 </A> </LI>
NIST * <LI>  <A href=http://aeldata.phy.nist.gov/nist_atomic_spectra.html> NIST: Atomic Spectroscopic Database (Version 1.0) </A> </LI>
MSF, oxygen,O2, HFC-134a, HFC-32, HFC-134, HFC-143a, C4H8, C2F6 * <LI> <A href=http://ssdsmsf1.ag.rl.ac.uk/msfdata> MSF Spectroscopic Data Server </A> </LI>
e-mail, LTS *<LI><A href=mailto:gvf@lts.iao.tsc.ru>Vladimir Golovko, Laboratory of Theor. Spectroscop
</A> </LI>
LTS, Tomsk, IOA, Russia *<LI><A href=ftp://lts.iao.tsc.ru>FTP server of LTS, Tomsk, Russia
</A> </LI>
* <LI> Mankin, W.G., Coffey, M.T. and Goldman, A., Airbone observations of SO2, HCl and O3 in the stratospheric plume of the Pinatubo volcano in July 1991. Geophysical Research Letters, 1992, 19, 179-182. </LI>
* <LI> Goorvitch, D., Goldman, A., Dothe, H., Tipping, R. H. and  Chackerian,  C.,  Jr., Hydroxyl  X2  pure  rotational transitions. Journal of Geophysical Research, 1992, 97, 20771- 20786; </LI>
* <LI>     Burkholder, J.D.,Hammer, P.D., Howard, C.J. and Goldman, A., Infrared line intensity measurements in the v=0-1 band of the ClO radical. Journal of. Geophysical Research, 1989, 94, 2225-2234. </LI>
* <LI>     Rinsland, C.P. and Goldman, A., Search for infrared absorption lines of atmospheric chlorine monoxide (ClO). Journal of Quantitative Spectroscopy and Radiative Transfer, 1992, 48, 685-692. </LI>
* <LI>     Waters, M.W., Reed, W.G., Froidevaux, L., Lungu, T.A., Peran, V.S., Stachnik, R.A., Jarnot, R.F., Cofield, R.E., Fishbein, E.F., Flower, D.A., Burke, J.R., Hardy, J.C., Nakamura, L.L., Ridenoure, B.P., Shippony, Z., Thurstans, R.P., Avallone, L.M., Toohey, D.W., de Zafra, R.L. and Shindell, D.T., Validation of UARS microwave limb sounder ClO measurements. Journal of Geophysical Research, 1996, 101, 10091-10127. </LI>
* <LI>     Kurtz, J., Reuter, D.C., Jennings, D.E. and Hillman, J.J., Laboratory spectra of 13C ethane. Journal of Geophysical Research, 1992, 96, 17489-17492. </LI>
* <LI> Ballard, J., Johnston, W. B., Gunson,  M.  R.  and    Wassell, P. T., Absolute absorption coefficients of ClONO2    infrared  bands at stratospheric temperatures. Journal  of    Geophysical Research, 1988, 93, 1659-1665. </LI>
* <LI> Rinsland, C. P., Gunson, M. R., Abrams, M. C., Zander, R., Mahieu, E., Goldman, A., Ko, M. K. W., Rodriguez, J. M. and Sze, N. D., Profiles of stratospheric chlorine nitrate (ClONO2) from atmospheric trace molecule spectroscopy/ATLAS 1 infrared solar occultation spectra. Journal of Geophysical Research, 1994, 99, 18895-18900. </LI>
CFC-113, CFC-114 * <LI>        Rogers,  J.D.  and  Stefens,  R.D.,  Absolute  infrared    intensities for F-113 and F-114 and an assesment  of  their    greenhouse    warming   potential   relative    to    other    chlorofluorocarbons. Journal of Geophysical Reasearch, 1988,    93, 2423-2428. </LI>
* <LI>     World Meteorological Organization (WMO), Scientific Assessment of Ozone depletion. In Global Ozone Research and Monitoring Project, Rep. 25, Geneva, Switzerland, 1991. </LI>
* <LI>     Ramanathan, V., Cicerone, R.J., Singh, H.B. and Kiehl, J.T., Trace gas trends and their potential role in climate change. Journal of Geophysical Reasearch, 1985, 93, 2423-2428. </LI>
* <LI>     Clerbaux, C., Colin, R., Simon, P.C. and Granier, C., Infrared cross-sections and global warming potentials of 10 alternative hydrohalocarbons. Journal of Geophysical Research, 1993, 98, D6, 10491-10497. </LI>
* <LI>      Orphal, J., Guelachvili, G. and Morillon-Chapey, M., High-    resolution absorption cross sections of chlorine nitrate in    the  nu2  band  region  around 1292  cm-1  at  stratospheric    temperatures. Journal of Geophysical Research, 1994, 99, D99,    14549-14555. </LI>
Reims, GSMA, H2O, O3, ozone, water *<LI><A href=mailto:vladimir.tyuterev@univ-reims.fr>Vladimir Tyuterev (GSMA, Universite de Reims)
</A> </LI>
h20, WWW *<LI>Auteur, Article
</LI>
* <LI>     Husson, N., Bonnet, B., Scott, N.A. and Chedin, A., Management and study of spectroscopic information: the GEISA program. Journal of Quantitative Spectroscopy & Radiative Transfer, 48, 1992, 509-518. </LI>
* <LI>     Husson, N., Bonnet, B., Chedin, A., Scott, N. A, Chursin, A. A., Golovko, V. F. and Tyuterev, Vl. G., The GEISA data bank in 1993. A PC/AT compatible computers' new version. Journal of Quantitative Spectroscopy & Radiative Transfer, 52, 1994, 425-438. </LI>
* <LI>     Jacquinet-Husson, N., Scott, N. A., Chedin, A., Bonnet, B., Barbe, A., Tyuterev, Vl. G., Champion, J. P., Winnewisser, M., Brown, L. R., Gamache, R., Golovko, V. F. and Chursin, A., The GEISA system in 1996: Toward an operational tool for the second generation vertical sounders radiance simulation. Journal of Quantitative Spectroscopy & Radiative Transfer, 59, 1998, 511-527. </LI>
* <LI>       Chedin, A., Husson, N., Scott, N. A, Cohen-Hallaleh, I.     and Berroir, A., The GEISA data bank 1984 version. Internal     Note LMD, n 127, February 1985, reviewed october 1986. </LI>
GEISA-84 * <LI>      Husson, N., Chedin, A., Scott, N. A., Bailly, D., Graner,     G., Lacome, N., Levy, A., Rossetti, C., Tarrago, G., Camy-    Peyret,  C.,  Flaud,  J.-M., Bauer,  A.,  Colmont,  J.-M.,    Monnanteuil,  N., Hilico, J.-C., Pierre,  G.,  Loete,  M.,    Champion, J.-P., Rothman, L. S., Brown, L. R., Orton,  G.,    Varanasi, P., Rinsland, C. P., Smith, M. A. H. and Goldman,    A., The GEISA spectroscopic line parameters data bank in 1984.    Annales Geophysicae, 1986, 4, 185-190. </LI>
* <LI>      Chursin, A.A., Golovko, V.F., Tyuterev, Vl.G., Husson, N.,     Bonnet, B., Chedin, A. and Scott,  N.A., The software package     for  managing large-scaled spectroscopic databases and  its     atmospheric  applications.  In Proceedings  of  the  Second     International   Workshop  on  Advances  in  Databases   and     Information Systems, Vol.2, Moscow, Russia, 1995, pp. 9-11. </LI>
* <LI>    Chursin,  A.A., Golovko, V.F., Nikitin, A.V., Jacquinet-Husson, N.,     Bonnet, B., Scott, N.A.           and  Tyuterev, Vl.G., The GEISA-PC software packages  for large-scaled spectroscopic databases management: Current status  and perspectives. In Proceedings of the First East- European  Symposium  on  Advances  in  Databases  and Information Systems (ADBIS-97). </LI>
GEISA * <LI> <A href=http://www.ara.polytechnique.fr> Server of ARA/LMD group </A> </LI>
LTS,IOA, TOMSK,Russie *<LI><A href=mailto:alexei@lts.iao.tsc.ru>Alexey Chursin (LTS, Tomsk, Russia)
</A> </LI>
* <LI>     Goldman, A., Brown, L.R., Schoenfeld, W.G., Spencer, M.N., Chackerian, Jr., C.,Giver, L.P., Rinsland, C.P., Coudert, L.H., Dana, V. and Mandin, J.-Y, Nitric Oxide Line Parameters: Review of 1996 HITRAN Update and New Results, Journal of Quantitative Spectroscopy & Radiative Transfer, 1997, in press. </LI>
* <LI> Perrin, A., Camy-Peyret, C. and Flaud, J.-M., Infrared Nitrogen Dioxide in the HITRAN database. Journal of Quantitative Spectroscopy & Radiative Transfer, 1992,48, 645- 652. </LI>
* <LI> Goldman, A., Rinsland, C.P., Perrin, A. and Flaud, J.-M., HNO3  line parameters: 1996 HITRAN update and new results. Journal of Quantitative Spectroscopy & Radiative Transfer, 1997, in press. </LI>
* <LI> Massie, S. T. and Goldman, A., Absorption parameters of very dense molecular spectra for the HITRAN compilation. Journal of Quantitative Spectroscopy & Radiative Transfer, 1992, 48, 713-719. </LI>
* <LI>      Goldman, A., Rinsland, C.P., Flaud, J.-M. and Orphal, J.,     ClONO2: spectroscopic line parameters and cross-sections in     1996 HITRAN. Journal of Quantitative Spectroscopy & Radiative     Transfer, 1997, in press. </LI>
HITRAN * <LI> <A href=http://www.hitran.com> http://www.hitran.com </A> </LI>
* <LI> Rothman, L. S., Gamache, R. R., Goldman, A., Brown, L. R., Toth, R. A., Pickett, H. M., Poynter, R. L., Flaud, J.-M., Camy-Peyret, C., Barbe, A., Husson, N., Rinsland, C. P. and Smith, M. A. H., The HITRAN Database: 1986 Edition. Applied Optics, 1987, 26, 4058-4097. </LI>