Non-Thermal X-ray Properties of Rotation Powered Pulsars and Their Wind Nebulae

TL;DR

This study analyzes the non-thermal X-ray emissions of young pulsars and their wind nebulae, revealing correlations with pulsar spin-down power and supporting the particle wind acceleration model.

Contribution

It provides the first comprehensive statistical analysis of X-ray properties of pulsars and PWNe, highlighting their relation to pulsar parameters and supporting the wind shock acceleration theory.

Findings

X-ray luminosities strongly correlate with pulsar spin-down power.

PWN photon index positively correlates with PWN luminosity and spin-down power.

PWN X-ray luminosity is typically 1-10 times that of the pulsar.

Abstract

We present a statistical study of the non-thermal X-ray emission of 27 young rotation powered pulsars (RPPs) and 24 pulsar wind nebulae (PWNe) by using the Chandra and the XMM-Newton observations, which with the high spatial resolutions enable us to spatially resolve pulsars from their surrounding PWNe. We obtain the X-ray luminosities and spectra separately for RPPs and PWNe, and then investigate their distribution and relation to each other as well as the relation with the pulsar rotational parameters. In the pair-correlation analysis we find that: (1) the X-ray (2-10 keV) luminosities of both pulsar and PWN (L_{psr} and L_{pwn}) display a strong correlation with pulsar spin down power Edot and characteristic age, and the scalings resulting from a simple linear fit to the data are L_{psr} \propto Edot^{0.92 \pm 0.04} and L_{pwn} \propto Edot^{1.45 \pm 0.08} (68% confidence level), respectively, however, both the fits are not statistically acceptable; (2) L_{psr} also shows a possible weak correlation with pulsar period P and period derivative Pdot, whereas L_{pwn} manifests a similar weak correlation with Pdot only; (3) The PWN photon index Gamma_{pwn} is positively correlated with L_{pwn} and L_{pwn}/Edot. We also found that the PWN X-ray luminosity is typically 1 to 10 times larger than that from the underlying pulsar, and the PWN photon indices span a range of ~1.5 to ~2. The statistic study of PWN spectral properties supports the particle wind model in which the X-ray emitting electrons are accelerated by the termination shock of the wind.