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  1. K. M. Haught, D. M. Cordray, Appl. Opt. 17, 2668 (1978).
    [CrossRef] [PubMed]
  2. J. E. A. Selby, E. P. Shettle, R. A. McClatchey, “Atmospheric Transmittance from 0.25 to 28.5 μm: Supplement lowtran 3B (1976),” AFGL-TR-76-0258 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1976).
  3. K. M. Haught, D. M. Cordray, Appl. Opt. 18, 593 (1979).
    [CrossRef] [PubMed]
  4. A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
    [CrossRef]
  5. J. E. A. Selby, F. X. Kneizys, J. H. Chetwynd, R. A. McClatchey, “Atmospheric Transmittance/Radiance: Computer Code lowtran 4,” AFGL-TR-78-0053 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1978). lowtran 4 and 3B have the same water vapor continuum model in the 2350–3200-cm−1 spectral region.
  6. A. Ben-Shalom, A. D. Devir, S. G. Lipson, U. P. Oppenheim, “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm”, in Proceedings, International Radiation Symposium, Fort Collins, Colorado, August 1980, p. 219; Also “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm: Preliminary Results”, Opt. Eng. (in press).

1980 (1)

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

1979 (1)

1978 (1)

Ben-Shalom, A.

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

A. Ben-Shalom, A. D. Devir, S. G. Lipson, U. P. Oppenheim, “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm”, in Proceedings, International Radiation Symposium, Fort Collins, Colorado, August 1980, p. 219; Also “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm: Preliminary Results”, Opt. Eng. (in press).

Cabib, D.

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

Chetwynd, J. H.

J. E. A. Selby, F. X. Kneizys, J. H. Chetwynd, R. A. McClatchey, “Atmospheric Transmittance/Radiance: Computer Code lowtran 4,” AFGL-TR-78-0053 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1978). lowtran 4 and 3B have the same water vapor continuum model in the 2350–3200-cm−1 spectral region.

Cordray, D. M.

Devir, A. D.

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

A. Ben-Shalom, A. D. Devir, S. G. Lipson, U. P. Oppenheim, “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm”, in Proceedings, International Radiation Symposium, Fort Collins, Colorado, August 1980, p. 219; Also “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm: Preliminary Results”, Opt. Eng. (in press).

Goldschmidt, D.

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

Haught, K. M.

Kneizys, F. X.

J. E. A. Selby, F. X. Kneizys, J. H. Chetwynd, R. A. McClatchey, “Atmospheric Transmittance/Radiance: Computer Code lowtran 4,” AFGL-TR-78-0053 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1978). lowtran 4 and 3B have the same water vapor continuum model in the 2350–3200-cm−1 spectral region.

Lipson, S. G.

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

A. Ben-Shalom, A. D. Devir, S. G. Lipson, U. P. Oppenheim, “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm”, in Proceedings, International Radiation Symposium, Fort Collins, Colorado, August 1980, p. 219; Also “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm: Preliminary Results”, Opt. Eng. (in press).

McClatchey, R. A.

J. E. A. Selby, F. X. Kneizys, J. H. Chetwynd, R. A. McClatchey, “Atmospheric Transmittance/Radiance: Computer Code lowtran 4,” AFGL-TR-78-0053 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1978). lowtran 4 and 3B have the same water vapor continuum model in the 2350–3200-cm−1 spectral region.

J. E. A. Selby, E. P. Shettle, R. A. McClatchey, “Atmospheric Transmittance from 0.25 to 28.5 μm: Supplement lowtran 3B (1976),” AFGL-TR-76-0258 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1976).

Oppenheim, U. P.

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

A. Ben-Shalom, A. D. Devir, S. G. Lipson, U. P. Oppenheim, “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm”, in Proceedings, International Radiation Symposium, Fort Collins, Colorado, August 1980, p. 219; Also “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm: Preliminary Results”, Opt. Eng. (in press).

Selby, J. E. A.

J. E. A. Selby, F. X. Kneizys, J. H. Chetwynd, R. A. McClatchey, “Atmospheric Transmittance/Radiance: Computer Code lowtran 4,” AFGL-TR-78-0053 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1978). lowtran 4 and 3B have the same water vapor continuum model in the 2350–3200-cm−1 spectral region.

J. E. A. Selby, E. P. Shettle, R. A. McClatchey, “Atmospheric Transmittance from 0.25 to 28.5 μm: Supplement lowtran 3B (1976),” AFGL-TR-76-0258 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1976).

Shettle, E. P.

J. E. A. Selby, E. P. Shettle, R. A. McClatchey, “Atmospheric Transmittance from 0.25 to 28.5 μm: Supplement lowtran 3B (1976),” AFGL-TR-76-0258 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1976).

Appl. Opt. (2)

Infrared Phys. (1)

A. Ben-Shalom, D. Cabib, A. D. Devir, D. Goldschmidt, S. G. Lipson, U. P. Oppenheim, Infrared Phys. 20, 165 (1980).
[CrossRef]

Other (3)

J. E. A. Selby, F. X. Kneizys, J. H. Chetwynd, R. A. McClatchey, “Atmospheric Transmittance/Radiance: Computer Code lowtran 4,” AFGL-TR-78-0053 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1978). lowtran 4 and 3B have the same water vapor continuum model in the 2350–3200-cm−1 spectral region.

A. Ben-Shalom, A. D. Devir, S. G. Lipson, U. P. Oppenheim, “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm”, in Proceedings, International Radiation Symposium, Fort Collins, Colorado, August 1980, p. 219; Also “Absorption by Atmospheric Water Vapor in the Region 4.2–5.5μm: Preliminary Results”, Opt. Eng. (in press).

J. E. A. Selby, E. P. Shettle, R. A. McClatchey, “Atmospheric Transmittance from 0.25 to 28.5 μm: Supplement lowtran 3B (1976),” AFGL-TR-76-0258 (Air Force Geophysics Laboratory, Hanscom AFB, Mass., 1976).

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Figures (3)

Fig. 1
Fig. 1

Comparison of measured and calculated atmospheric transmittance in the 3.2–5.5-μm region: experimental (x—x) lowtran 4 (—), and NRL modification (- - -) for 1 × 105 Torr-meter of water vapor. The dots (…) represent our new 5-μm H2O continuum model.

Fig. 2
Fig. 2

Comparison of measured and calculated atmospheric transmittance in the 3.2–5.5-μm region: experimental (x—x), lowtran 4 (—), and NRL modification (- - -) for 2.7 × 105 Torr-meter of water vapor.

Fig. 3
Fig. 3

Comparison of measured and calculated atmospheric transmittance in the 3.2–5.5-μm region: experimental (x—x), lowtran (—), and NRL modification (- - -) for 3.3 × 105 Torr-meter of water vapor.

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