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Figure 6. Spectral dependence of self-continuum cross-section at room temperature in the 2.1 μm window (4200-5200 cm-1). The two last versions of the MT_CKD model (V3.0 and V3.2) are compared to the cavity-based measurements, to the FTS results obtained in Tomsk (Ptashnik et al., 2013, 2015) or by the CAVIAR consortium (Ptashnik et al., 2011). The 30–50% error bars on the Tomsk2015 FTS values and the small error bars on our laser based values are not plotted, for clarity. The zoom highlights the present CRDS values near 5000 cm-1.

  1. Ptashnik, I. V., McPheat, R. A., Shine, K. P., Smith, K. M., and Williams, R. G.: Water vapor self – continuum absorption in near – infrared windows derived from laboratory measurements, J. Geophys. Res., 116, D16305, https://doi.org/10.1029/2011JD015603, 2011a.
  2. Ptashnik, I. V., Petrova, T. M., Ponomarev, Y. N., Shine, K. P., Solodov, A. A., and Solodov, A. M.: Near-infrared water vapour self-continuum at close to room temperature, J. Quant. Spectrosc. Ra. Transf., 120, 23–35, https://doi.org/10.1016/j.jqsrt.2013.02.016, 2013.
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  4. Didier Mondelain, Semen Vasilchenko, Peter Cermak, Samir Kassi,· Alain Campargue, The self- and foreign-absorption continua of water vapor by cavity ring-down spectroscopy near 2.35 µm, Physical Chemistry Chemical Physics, 2015; 17(27), 17762-17770 DOI: 10.1039/C5CP01238D
  5. Ventrillard, I., Romanini, D., Mondelain, D., and Campargue, A. Accurate measurements and temperature dependence of the water vapor self-continuum absorption in the 2.1 μm atmospheric window, J. Chem. Phys., 143, 134304, https://doi.org/10.1063/1.4931811, 2015.
  6. Campargue, A., Kassi, S., Mondelain, D., Vasilchenko, S., and Romanini, D. Accurate laboratory determination of the near infrared water vapor self-continuum: A test of the MT_CKD model, J. Geophys. Res.-Atmos., 121, 180–13,203, https://doi.org/10.1002/2016JD025531, 2016.
  7. Richard, L., Vasilchenko, S., Mondelain, D., Ventrillard, I., Romanini, D., and Campargue, A. Water vapor self-continuum absorption measurements in the 4.0 and 2.1 μm transparency windows, J. Quant. Spectrosc. Ra. Transf., 201, 171–179, 2017.


INTAS grants 00-189, 03-51-3394, гранты РФФИ 02-07-90139, 05-07-90196, 08-07-00318, 13-07-00411