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Pulsars and the Origin of Cosmic Rays

Published online by Cambridge University Press:  30 March 2016

T. Gold*
Affiliation:
Space Science Building, Cornell University, Ithaca, N.Y. 14850, U.S.A.

Extract

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The basic idea that pulsars may be the origin of cosmic rays arises when one realizes that they meet some of the criteria, perhaps not all as yet, for an origin theory of cosmic rays. Those criteria are: (1) there must be some possible mechanism that one can recognize for the acceleration of particles; and the pulsars have given us a very clear hint that particles are accelerated to at least the medium range of energies of cosmic rays - 1013 eV. (2) The objects that are thought responsible for cosmic rays must have enough total energy available to them to produce the entire cosmic ray beam in the Galaxy. I will come back to that, but it is clear that the total number of pulsars that one might expect in the Galaxy can indeed produce an adequate supply and even a good margin above that, if one makes the estimate on the basis of one plausible set of assumptions. (3) One would like of course that the mechanism proposed should generate the right spectrum; but there we as yet know too little. We do not understand what the energy spectrum of particles accelerated in pulsars should be, and we cannot as yet make any conclusive statement as to whether this spectrum can or cannot match the observed cosmic ray spectrum in the Galaxy. There is no reason for thinking otherwise, but there is no positive evidence in favor at the moment.

Then we have (4) the problem that the process selected must generate the correct composition. There we have the problem that we have just discussed, which is certainly a difficult one; I don’t know that it is completely clear what type of particles you must expect to come from pulsars; how much of the material accelerated in the vicinity of the pulsar is material that is being cycled into it at the time and going out again; and how much is material which is preferentially sucked out of the surface, perhaps by reason of a high charge-to-mass ratio.

Type
III. Joint Discussions
Copyright
Copyright © Reidel 1971

References

Drake, F. D. and Craft, H. D. Jr.: 1968,Nature 220, 5164.Google Scholar
Gold, T.: 1969, Nature 223, 5202.Google Scholar
Gold, T.: 1969, Nature 221, 5175.Google Scholar
Gold, T.: 1971, Proc. of the XI International Conf. on Cosmic Rays, Publ. Central Res. Inst. of Phys. of the Hungarian Academy of Sciences, Budapest, 1971.Google Scholar