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1.1.4 Pioneer 10 Observations of Zodiacal Light Brightness near the Ecliptic: Changes with Heliocentric Distance

Published online by Cambridge University Press:  12 April 2016

M. S. Hanner ,
J. G. Sparrow ,
J. L. Weinberg  and
D. E. Beeson
M. S. Hanner
Affiliation:
Space Astronomy Laboratory, State University of New York at Albany
J. G. Sparrow
Affiliation:
Space Astronomy Laboratory, State University of New York at Albany
J. L. Weinberg
Affiliation:
Space Astronomy Laboratory, State University of New York at Albany
D. E. Beeson
Affiliation:
Space Astronomy Laboratory, State University of New York at Albany

Abstract

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Sky maps made by the Pioneer 10 Imaging Photopolarimeter (IPP) at sun-spacecraft distances from 1 to 3 AU have been analyzed to derive the brightness of the zodiacal light near the ecliptic at elongations greater than 90 degrees. The change in zodiacal light brightness with heliocentric distance is compared with models of the spatial distribution of the dust. Use of background starlight brightnesses derived from IPP measurements beyond the asteroid belt, where the zodiacal light is not detected, and, especially, use of a corrected calibration lead to considerably lower values for zodiacal light than those reported by us previously.

Type
1 Zodiacal Light
Information
International Astronomical Union Colloquium , Volume 31: Interplanetary Dust and Zodiacal Light , 1976 , pp. 29 - 35
Copyright
Copyright © Springer-Verlag 1976

References

Hanner, M. S. and Leinert, C., 1972, The Zodiacal Light as seen from the Pioneer F/G and Helios Probes, Space Research XII, 445455.Google Scholar
Hanner, M. S. and Weinberg, L., 1973, Gegenschein Observations from Pioneer 10, Sky and Telescope, 45, 217218.Google Scholar
Hanner, M. S. and Weinberg, J. L., 1974, Changes in Zodiacal Light with Heliocentric Distance: Preliminary Results from Pioneer 10, Space Research XIV, 769771.Google Scholar
Hanner, M. S., J. L. Weinberg, , DeShields, L. M. II, Green, B. A., and Toller, G. N., 1974, Zodiacal Light and the Asteroid Belt: The View from Pioneer 10, J. Geophys. Res. 79, 36713675.Google Scholar
Hayes, D. S. and Latham, D. W., 1975, A Rediscussion of the Atmospheric Extinction and the Absolute Spectral Energy Distribution of Vega, Astrophys. J. 197, 593601.Google Scholar
Johnson, F. S., 1954, The Solar Constant, J. Meteorol. 11, 431439.Google Scholar
Labs, D. and Neckel, H., 1970, Transformation of the Absolute Solar Radiation Data into the International Practical Temperature Scale of 1968, Solar Phys. 15, 7987.Google Scholar
Pellicori, S. F., Russell, E. E., and Watts, L. A., 1973, Pioneer Imaging Photopolarimeter Optical System, Appl. Opt. 12, 12461257.Google Scholar
Stebbins, J.and Kron, G. E., 1957, Six-Color Photometry of Stars. X. The Stellar Magnitude and Color Index of the Sun, Astrophys. J. 126, 266280.Google Scholar
Weinberg, J. L., Hanner, M. S., Mann, H. M., Hutchison, P. B., and Fimmel, R., 1973, Observations of Zodiacal Light from the Pioneer 10 Asteroid-Jupiter Probe: Preliminary Results, Space Research XIII, 11871192.Google Scholar
Weinberg, J. L., Hanner, M. S., Beeson, D. E., DeShields, L. M. II, and Green, B. A., 1974, Background Starlight Observed from Pioneer 10, J. Geophys. Res. 79, 36653670.Google Scholar