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Cosmic Ray Isotropy at Energies Above 1018 eV

Published online by Cambridge University Press:  25 April 2016

A.G.K. Smith  and
R.W. Clay
A.G.K. Smith
Affiliation:
Dept of Physics and Mathematical Physics, University of Adelaide, GPO Box 498, Adelaide SA 5001
R.W. Clay
Affiliation:
Dept of Physics and Mathematical Physics, University of Adelaide, GPO Box 498, Adelaide SA 5001
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Abstract

Studies have been made of the extent to which extragalactic cosmic rays observed at the earth would be deviated by the galactic magnetic field. The distribution of these deviations is presented as a function of observed direction for two field models. Also using these two models, possible extragalactic directions are derived for the cosmic rays detected by the SUGAR giant air shower array as a basis of a possible technique for searching for extragalactic cosmic ray sources.

Type
High Energy Astrophysics
Information
Publications of the Astronomical Society of Australia , Volume 10 , Issue 4 , 1993 , pp. 291 - 297
Copyright
Copyright © Astronomical Society of Australia 1993

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References

Chi, X., Wolfendale, A.W. and Wdowczyk, J., 1991, Proc. 22nd Int. Cosmic Ray Conference, Dublin Institute for Advanced Studies, 1, 568.Google Scholar
Rand, R.J. and Kulkarni, S.R., 1989, Astrophys. J., 343, 760.Google Scholar
Smith, A.G.K. and Clay, R.W., 1990, Aust. J. Phys., 43, 373.Google Scholar
Smith, A.G.K. and Clay, R.W., 1991, Proc. 22nd Int. Cosmic Ray Conference, Dublin Institute for Advanced Studies, 2, 132.Google Scholar
Thielheim, K.O. and Langhoff, W., 1968, J. Phys. A, 1, 694.Google Scholar
Valée, J.P., 1991, Ap.J., 366, 450.Google Scholar
Winn, M.M. et al., 1986, J. Phys. G: Nucl. Phys., 12, 653.Google Scholar