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The Josephson Effect as a Possible Alternative Mechanism for Pulsar Radio Emission: Spectra, Pulse Structure, Polarization, And X-/γ-Ray Emission

Published online by Cambridge University Press:  27 September 2017

Yuri A. Kovalev
Yuri A. Kovalev*
Affiliation:
Astro-Space Center, P. N. Lebedev Physical Institute

Abstract

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Results and problems of the model for Josephson pulsars are summarized and discussed. In this model coherent radio emission is generated in the mantle of a neutron star by the Josephson effect. The matter from the mantle may flow along the magnetic field through cracks in the crust, forming a magnetized plasma wave guide. Radio emission propagates in this plasma flow as polarized normal wave-guide modes. A line-of-sight section gives the observed polarized structure of pulses. In some cases polarized X- and γ-ray emission may be generated in this flow in or over cracks. Such an approach allows us to avoid the typical problems and is in agreement with the main observational results.

Type
Part III Magnetospheric models
Information
International Astronomical Union Colloquium , Volume 128: Magnetospheric structure and emission mechanisms of radio pulsars , 1992 , pp. 130 - 131
Copyright
Copyright © United States Naval Observatory 1992

References

1 The Josephson pulsar model has problems, of course, and the problem of radio emission escaping is one of these. But the criticism by Andriesse (1980) actually did not touch upon the model, and I consider the critical arguments as either moot or as misunderstanding.