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Ultrahigh Energy Cosmic-ray Accelerators

Published online by Cambridge University Press:  25 May 2016

A. V. Olinto*
Affiliation:
Department of Astronomy & Astrophysics & Enrico Fermi Institute, The University of Chicago, Chicago, IL 60637, U.S.A.

Abstract

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The surprising lack of a high energy cutoff in the cosmic ray spectrum at the highest energies, together with an apparently isotropic distribution of arrival directions, have strongly challenged most models proposed for the acceleration of ultrahigh energy cosmic rays. Young neutron star winds may be able to explain the mystery. We discuss this recent proposal after summarizing the observational challenge and plausible acceleration sites. Young neutrons star winds differ from alternative models in the predictions for composition, spectrum, and angular distribution, which will be tested in future experiments.

Type
Part I: Talks
Copyright
Copyright © Astronomical Society of the Pacific 2000 

References

Ahn, E. J., Biermann, P. L., Medina-Tanco, G., & Stanev, T., in preparation.Google Scholar
Berezinsky, V. S. 1999, Nucl. Phys. (Proc. Suppl.), 70, 419.CrossRefGoogle Scholar
Berezinsky, V. S., Bulanov, S. V., Dogiel, V. A., Ginzburg, V. L., & Ptuskin, V. S. 1990, Astrophysics of Cosmic Rays ed. Ginzburg, V. L. (Amsterdam: North Holland).Google Scholar
Berezinsky, V. S., Grigo'eva, S. I., & Dogiel, V. A. 1989, Sov. Phys. JETP, 69, 453.Google Scholar
Bhattacharjee, P., & Sigl, G. 2000, Phys. Reps., submitted.Google Scholar
Bird, D. J. 1993, Phys. Rev. Lett., 71, 3401.CrossRefGoogle Scholar
Bird, D. J. 1994, ApJ, 424, 491.Google Scholar
Bird, D. J., et al. 1995, ApJ, 441, 144.CrossRefGoogle Scholar
Blasi, P., Buries, S., & Olinto, A. V. 1999, ApJ, 512, L79.Google Scholar
Blasi, P., Epstein, R. I., & Olinto, A. V. 2000, Phys. Rev. Lett., submitted.Google Scholar
Blasi, P., & Olinto, A. V. 1998, Phys. Rev. D, 59, 023001.Google Scholar
Blumenthal, G. B. 1970, Phys. Rev. D, 1, 1596.Google Scholar
Boldt, E., & Ghosh, P. 1999, MNRAS, 307, 491.CrossRefGoogle Scholar
Cronin, J. W. 1992, Nucl. Phys. B. (Proc. Suppl.), 28, 213.Google Scholar
Cronin, J. W. 1999, Rev. Mod. Phys., 71, S165.Google Scholar
Goldreich, P., & Julian, W. H. 1969, ApJ, 157, 869.CrossRefGoogle Scholar
Greisen, K. 1966, Phys. Rev. Lett., 16, 748.Google Scholar
Hayashida, N. 1994, Phys. Rev. Lett., 73, 3491.Google Scholar
Hill, C. T. 1983, Nucl. Phys. B, 224, 469.Google Scholar
Hillas, A. M. 1984, ARA&A, 22, 425.Google Scholar
Lawrence, M. A., Reid, R. J. O., & Watson, A. A. 1991, J. Phys. G: Nucl. Part. Phys., 17, 773.Google Scholar
Medina-Tanco, G. 1999, in Proc. of 26th ICRC, eds. Kieda, D., Salamon, M., & Dingus, B. (Salt Lake City: University of Utah), 4, 346.Google Scholar
Michel, F. C. 1991, Theory of Neutron Stars Magnetosphere (Chicago: The University of Chicago Press).Google Scholar
Olinto, A. V., Epstein, R. I., & Blasi, P. 1999, in Proc. of 26th ICRC, eds. Kieda, D., Salamon, M., & Dingus, B. (Salt Lake City: University of Utah), 4, 361.Google Scholar
Puget, J. L., Stecker, F. W., & Bredekamp, J. H. 1976, ApJ, 205, 638.Google Scholar
Rachen, J. P., & Biermann, P. L. 1993, A&A, 272, 161.Google Scholar
Ryu, D., & Bierman, P. L. 1998, A&A, 335, 19.Google Scholar
Schramm, D. N., & Hill, C. T. 1983, in Proc. of 18th ICRC, 2, 393.Google Scholar
Sigl, G., Lemoine, M., & Biermann, P. 1999, Astropart. Phys., 10, 141.Google Scholar
Stanev, T., & Hillas, A. M. 1999, in Proc. of 26th ICRC, eds. Kieda, D., Salamon, M., & Dingus, B. (Salt Lake City: University of Utah), 4, 365.Google Scholar
Stecker, F. W. 1999, Astropart. Phys., 11, 83.Google Scholar
Takeda, M., et al. 1998, Phys. Rev. Lett., 81, 1163.Google Scholar
Takeda, M., et al. 1999, ApJ, 522, 225.CrossRefGoogle Scholar
Venkatesan, A., Miller, M. C., & Olinto, A. V. 1997, ApJ, 484, 323.CrossRefGoogle Scholar
Vietri, M. 1995, ApJ, 453, 883.CrossRefGoogle Scholar
Watson, A. A. 2000, Phys. Reps., submitted.Google Scholar
Waxman, E. 1995, Phys. Rev. Lett., 75, 386.Google Scholar
Yoshida, S., et al. (AGASA Collaboration) 1999, in Proc. of 26th ICRC, eds. Kieda, D., Salamon, M., & Dingus, B. (Salt Lake City: University of Utah), 3, 256.Google Scholar
Zatsepin, G. T., & Kuzmin, V. A. 1966, Sov. Phys. JETP Lett., 4, 78.Google Scholar
Zirakashvili, V. N., Pochepkin, D. N., Ptuskin, V. S., & Rogovaya, S. I. 1998, Astron. Lett., 24, 139.Google Scholar