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References

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  1. K. Bullrich, Adv. Geophys. 10, 99 (1964).
    [CrossRef]
  2. K. L. Coulson, I. V. Dave, Z. Sekera, Tables Related to Radiation Emerging from a Planetary Atmosphere with Rayleigh Scattering (University of California Press, Berkeley, California, 1960).
  3. R. Kosbahn, master’s thesis Meteorological Institute, University of Frankfurt/Main (1948).
  4. E. de Bary, B. Braun, K. Bullrich, Tables Related to Light Scattering in a Turbid Atmosphere, Vols. I–III, AF Cambridge Research Lab., Special Rep. No. 33, 1965.
  5. R. Eiden, Tellus, in publication.

1964 (1)

K. Bullrich, Adv. Geophys. 10, 99 (1964).
[CrossRef]

Braun, B.

E. de Bary, B. Braun, K. Bullrich, Tables Related to Light Scattering in a Turbid Atmosphere, Vols. I–III, AF Cambridge Research Lab., Special Rep. No. 33, 1965.

Bullrich, K.

K. Bullrich, Adv. Geophys. 10, 99 (1964).
[CrossRef]

E. de Bary, B. Braun, K. Bullrich, Tables Related to Light Scattering in a Turbid Atmosphere, Vols. I–III, AF Cambridge Research Lab., Special Rep. No. 33, 1965.

Coulson, K. L.

K. L. Coulson, I. V. Dave, Z. Sekera, Tables Related to Radiation Emerging from a Planetary Atmosphere with Rayleigh Scattering (University of California Press, Berkeley, California, 1960).

Dave, I. V.

K. L. Coulson, I. V. Dave, Z. Sekera, Tables Related to Radiation Emerging from a Planetary Atmosphere with Rayleigh Scattering (University of California Press, Berkeley, California, 1960).

de Bary, E.

E. de Bary, B. Braun, K. Bullrich, Tables Related to Light Scattering in a Turbid Atmosphere, Vols. I–III, AF Cambridge Research Lab., Special Rep. No. 33, 1965.

Eiden, R.

R. Eiden, Tellus, in publication.

Kosbahn, R.

R. Kosbahn, master’s thesis Meteorological Institute, University of Frankfurt/Main (1948).

Sekera, Z.

K. L. Coulson, I. V. Dave, Z. Sekera, Tables Related to Radiation Emerging from a Planetary Atmosphere with Rayleigh Scattering (University of California Press, Berkeley, California, 1960).

Adv. Geophys. (1)

K. Bullrich, Adv. Geophys. 10, 99 (1964).
[CrossRef]

Other (4)

K. L. Coulson, I. V. Dave, Z. Sekera, Tables Related to Radiation Emerging from a Planetary Atmosphere with Rayleigh Scattering (University of California Press, Berkeley, California, 1960).

R. Kosbahn, master’s thesis Meteorological Institute, University of Frankfurt/Main (1948).

E. de Bary, B. Braun, K. Bullrich, Tables Related to Light Scattering in a Turbid Atmosphere, Vols. I–III, AF Cambridge Research Lab., Special Rep. No. 33, 1965.

R. Eiden, Tellus, in publication.

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Figures (3)

Fig. 1
Fig. 1

Schematic graph to illustrate the procedure of the linearization of the sky light distribution function Bλp(φ0); p denotes the solar point source; φ ¯ 0 is the intersection of the linearized sky light function with the abscissa outside the interval of definition.

Fig. 2
Fig. 2

Relative error R(φ0) due to an idealized solar radiation source vs scattering angle φ0. Parameter is the upper limiting radius r2 of the atmospheric aerosol size distribution.

Fig. 3
Fig. 3

Relative error R(φ0) due to an idealized solar radiation source vs scattering angle φ0. Parameter is the exponent ν* of the exponential atmospheric aerosol size distribution.

Equations (1)

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R ( φ 0 ) = { 1 + 2 3 δ s - 2 tan φ 0 B λ p ( φ 0 ) [ d B λ p ( φ ) d φ ] φ 0 - 1 } - 1 100 % .

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