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Figure 3. J. M. Hartmann (1989). Line mixing calculation, p=17 amagat.
CO2 transmission spectrum, T=291 K, l=4.4 cm. line mixing calculation [14], ρ=17 amagat.
 [14] J. M. Hartmann. Measurements and calculations of CO2 room temperature high pressure spectra in the 4.3 μm region. The Journal of Chemical Physics 90, 2944 (1989); doi: 10.1063/1.455894. http://dx.doi.org/10.1063/1.4558944-2950.
Reference
L.I.Nesmelova, O.B.Rodimova, and S. D. Tvorogov, On the role of continual and selective absorption in the wing of the 4. 3 μm CO2 band at high pressures and temperatures, SPIE  V.1811, SPIE - The international society for optical engineering, 1992, Pages 291-294.
 
Coordinate system (Linear, Linear)
Abscissa (X-axis)
System. Physical Quantity (Unit)
Wavenumber (cm⁻¹) Ordinate (Y-axis)
System. Physical Quantity (Unit)
Transmittance (%)
Physical quantities Commentary Additional description
Substance CO2 Method type Theoretical
Temperature 291 K Method, Model, Approximation Line mixing
Pressure (total) 1 Numerical array origin Digitized
Pressure (partial) Numerical array type Cited
Path Length 0.044 m
J.-.M. Hartmann, Measurements and calculations of CO2 room-temperature high-pressure spectra in the 4.3 μm region, Journal of Chemical Physics, 1989, Volume 90, Issue 6, Pages 2944–2950, DOI: 10.1063/1.455894.
Density
Wavenumber (T dependence)

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INTAS grants 00-189, 03-51-3394, RFBR grants 02-07-90139, 05-07-90196, 08-07-00318
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