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  1. J. H. Pierluissi, C. E. Maragoudakis, “Molecular Transmittance Band Model for Oxygen in the Infrared,” Appl. Opt. 25, 1538 (1986).
    [CrossRef] [PubMed]
  2. F. Saiedy, H. Jacobowitz, D. Q. Wark, “On Cloud Top Determination from Gemini-5,” J. Atmos. Sci. 24, 63 (1967).
    [CrossRef]
  3. T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).
  4. F. X. Kneizys et al., “Atmospheric Transmittance/Radiance: Computer Code lowtran 6,” AFGL-TR-83-0187, Air Force Geophysics Laboratory, Hanscom Air Force Base, MA (1983), ADA-137786.
  5. J. M. Jarem, J. H. Pierluissi, M. E. Maragoudakis, “Numerical Methods of Band Modeling and their Application to Atmospheric Nitrous Oxide,” Appl. Opt. 23, 406 (1984).
    [CrossRef] [PubMed]
  6. S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).
  7. L. S. Rothman et al., “AFGL Atmospheric Absorption Line Parameters Compilation: 1982 Edition,” Appl. Opt. 22, 2247 (1983).
    [CrossRef] [PubMed]
  8. S. L. Valley, Ed., Handbook of Geophysics and Space Environments (McGraw-Hill, New York, 1965).

1986 (1)

1984 (1)

1983 (1)

1981 (1)

S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).

1972 (1)

T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).

1967 (1)

F. Saiedy, H. Jacobowitz, D. Q. Wark, “On Cloud Top Determination from Gemini-5,” J. Atmos. Sci. 24, 63 (1967).
[CrossRef]

Adiks, T. G.

T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).

Clough, S. A.

S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).

Fillippova, N. S.

T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).

Gallery, W. O.

S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).

Georgiyevskiy, Yu S.

T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).

Jacobowitz, H.

F. Saiedy, H. Jacobowitz, D. Q. Wark, “On Cloud Top Determination from Gemini-5,” J. Atmos. Sci. 24, 63 (1967).
[CrossRef]

Jarem, J. M.

Kneizys, F. X.

S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).

F. X. Kneizys et al., “Atmospheric Transmittance/Radiance: Computer Code lowtran 6,” AFGL-TR-83-0187, Air Force Geophysics Laboratory, Hanscom Air Force Base, MA (1983), ADA-137786.

Malkevich, M. S.

T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).

Maragoudakis, C. E.

Maragoudakis, M. E.

Pierluissi, J. H.

Rothman, L. S.

L. S. Rothman et al., “AFGL Atmospheric Absorption Line Parameters Compilation: 1982 Edition,” Appl. Opt. 22, 2247 (1983).
[CrossRef] [PubMed]

S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).

Saiedy, F.

F. Saiedy, H. Jacobowitz, D. Q. Wark, “On Cloud Top Determination from Gemini-5,” J. Atmos. Sci. 24, 63 (1967).
[CrossRef]

Wark, D. Q.

F. Saiedy, H. Jacobowitz, D. Q. Wark, “On Cloud Top Determination from Gemini-5,” J. Atmos. Sci. 24, 63 (1967).
[CrossRef]

Appl. Opt. (3)

Izv. Acad. Sci. USSR Atmos. Oceanic Phys. (1)

T. G. Adiks, Yu S. Georgiyevskiy, M. S. Malkevich, N. S. Fillippova, “Atmospheric Transmission in the 0.76 μm O2 Band,” Izv. Acad. Sci. USSR Atmos. Oceanic Phys. 8, 369 (1972).

J. Atmos. Sci. (1)

F. Saiedy, H. Jacobowitz, D. Q. Wark, “On Cloud Top Determination from Gemini-5,” J. Atmos. Sci. 24, 63 (1967).
[CrossRef]

Proc. Soc. Photo-Opt. Instrum. Eng. (1)

S. A. Clough, F. X. Kneizys, L. S. Rothman, W. O. Gallery, “Atmospheric Spectral Transmittance and Radiance: fascod1b,” Proc. Soc. Photo-Opt. Instrum. Eng. 277, 152 (1981).

Other (2)

S. L. Valley, Ed., Handbook of Geophysics and Space Environments (McGraw-Hill, New York, 1965).

F. X. Kneizys et al., “Atmospheric Transmittance/Radiance: Computer Code lowtran 6,” AFGL-TR-83-0187, Air Force Geophysics Laboratory, Hanscom Air Force Base, MA (1983), ADA-137786.

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Figures (3)

Fig. 1
Fig. 1

Transmittance comparisons in the 14,526-cm−1 band of oxygen between the proposed model ○ and line-by-line spectra — used in development of the model for various atmospheric conditions.

Fig. 2
Fig. 2

Transmittance comparisons in the 15,902-cm−1 band of oxygen between the proposed model ○ and line-by-line spectra — used in development of the model for various atmospheric conditions.

Fig. 3
Fig. 3

Transmittance calculations for oxygen in the visible using the proposed band model with a vertical concentration of 2.09 × 105 ppmv as incorporated into lowtran 6 for a (1) vertical path from sea level to the top of the atmosphere; (2) 100-km horizontal path at sea level; (3) path tangent to earth’s surface and extending from one end of the atmosphere to the other.

Tables (1)

Tables Icon

Table I Spectral Parameter C′ for Oxygen to be Used with Eqs. (1)(4) in the Calculation of 20-cm−1 Resolution Atmospheric Transmittance in the Infrared

Equations (5)

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τ = exp [ - ( C W ) a ] ,
W = ( P / P 0 ) n ( T 0 / T ) m U ,
C = 10 C ,
U = 0.7732 × 10 4 M ρ a Z .
= [ τ ( i , j ) - τ m ( i , j ) ] 2 ,

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