Computer Science
Scientific paper
Jan 1990
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990icar...83...83m&link_type=abstract
Icarus (ISSN 0019-1035), vol. 83, Jan. 1990, p. 83-92.
Computer Science
20
Atmospheric Composition, Infrared Absorption, Nitriles, Refractivity, Satellite Atmospheres, Titan, Crystallinity, Kramers-Kronig Formula, Thin Films, Saturn, Satellites, Titan, Absorption, Refractive Index, Infrared, Wavelengths, Spectra, Experiments, Hydrogen Cyanide, Cyanoacetylene, Crystalline Material, Calculations, Laboratory Studies, Thickness, Scattering, Intensity, Nitriles, Atmosphere, Abundance, Comparisons
Scientific paper
IR absorption intensities are presented for thin crystalline films of HCN, HC3N, and C4N2, together with n and k complex refractive indices determined on the basis of an iterative program for the Kramers-Konig integral via a least-squares, point-by-point fitting of the experimental transmission data. It is established that the transmission spectra generated by means of these n and k values can reproduce the experimental transmission observation values to within + or - 2 percent.
Khanna Raj K.
Masterson Christine Marie
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