Pulsed high energy gamma-rays from thermal populations in the current sheets of pulsar winds

TL;DR

This paper proposes that synchrotron radiation from thermal populations in the pulsar wind's current sheet outside the light cylinder can explain observed gamma-ray spectra and lightcurves of pulsars, matching many observed characteristics.

Contribution

It introduces a model where thermal populations in the pulsar wind's current sheet produce gamma-ray emission, offering an alternative to magnetospheric gap models.

Findings

Reproduces pulsar positions in the P - Pdot diagram.

Matches the range of observed gamma-ray luminosities.

Predicts a sub-exponential cutoff with index 0.35 and a population of pulsars with MeV-range cutoff energies.

Abstract

Context. More than one hundred GeV pulsars have been detected up to now by the LAT telescope on the Fermi gamma-ray observatory, showing peak energies around a few GeV. Current modelling proposes that the high energy emission comes from outer magnetospheric gaps, however radiation from the equatorial current sheet which separates the two magnetic hemispheres outside the light cylinder has also been investigated. Aims. In this paper we discuss the region right outside the light cylinder, or "near wind" zone. We investigate the possibility that synchrotron radiation emitted by thermal populations in the equatorial current sheet of the pulsar wind in this region can explain the lightcurves and spectra observed by Fermi/LAT. Methods. We use analytical estimates as well as detailed numerical computation to calculate the gamma-ray luminosities, lightcurves and spectra of gamma-ray pulsars. Results. Many of the characteristics of the gamma-ray pulsars observed by Fermi/LAT can be reproduced by our model, most notably the position of these objects in the P - Pdot diagram, and the range of gamma-ray luminosities. A testable result is a sub-exponential cutoff with an index b = 0.35. We also predict the existence of a population of pulsars with cutoff energies in the MeV range. These have systematically lower spindown luminosities than the Fermi/LAT detected pulsars. Conclusions. It is possible for relativistic populations of electrons and positrons in the current sheet of a pulsar's wind right outside the light cylinder to emit synchrotron radiation that peaks in the sub-GeV to GeV regime, with gamma-ray efficiencies similar to those observed for the Fermi/LAT pulsars.