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A test of Radio Interferometry by Lunar reflection

Published online by Cambridge University Press:  12 April 2016

L. Belkora
Affiliation:
Astrophysical, Planetary and Atmospheric Sciences Department, University of Colorado, Boulder, CO 80309-0391
Tor Hagfors
Affiliation:
N.A.I.C., Cornell University, Ithaca NY 14853
J.A. Phillips
Affiliation:
N.A.I.C., Cornell University, Ithaca NY 14853

Abstract

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We discuss the use of the moon as a passive reflector for radio interferometry experiments with baselines on the order of the radius of the orbit of the moon. Because of the extreme loss in the lunar interferometer path, only exceptionally strong point sources are candidates for this kind of interferometry. As the moon is far from an ideal reflector due to the irregular surface, the data processing necessary to optimize the fringe detectability is rather complicated. What we present here is a very brief summary of a paper describing the lunar interferometer in the Astrophysical Journal (Hagfors, Phillips and Belkora, 1990) and an experiment currently underway at Arecibo to test the lunar interferometer using Jupiter’s strong bursts at 25 MHz as a source. All references pertaining to the lunar interferometer are to be found in the Astrophysical Journal paper; this summary includes references concerning the test of the interferometer at Arecibo.

Type
Interferometric Telescopes
Copyright
Copyright © Astronomical Society of the Pacific 1991

References

Calvert, W. 1982, J.G.R. 87 8199.Google Scholar
Carr, T.D., Desch, M.D. and Alexander, J.K. 1983, in Physics of the Jovian Magnetosphere, ed. Dessler, A.J., Cambridge University Press, New York, Chapter 7, 250.Google Scholar
Dulk, G.A. 1970, Ap. J. 152,671.Google Scholar
Genova, F. and W., Calvert. 1988, J. G. R. 93, 979.Google Scholar
Hagfors, T., Phillips, J.A., and Belkora., L. 1990, Ap. J. 362, 308.Google Scholar
Lynch, M.A., Carr, T.D, J.May, , Block, W.F., Robinson, V.M., and Six., N.F. 1972, Ap. J. 10, 153.Google Scholar
Lynch, M.A., Carr, T.D., and May., J. 1976, Ap. J. 207, 325.Google Scholar
Maeda, K., and Carr, T.D., in Proceedings of the Second Annual Workshop on Radio Emissions from Planetary Magnetospheres. Graz, Austria Google Scholar
Melrose, D.B. 1980, Plasma Astropvsics: Nonthermal Processes in Diffuse Magnetized Plasmas. Volume II: Astropvsical Applications (New York, N.Y.: Gordon and Breach Scientific Publishers.)Google Scholar
Slee, O.B. and Higgins., C.S. 1966, Aust. J. Phys. 19, 167.Google Scholar