Chandra X-ray Observations of the Pulsar Wind Nebula within CTA 1

Abstract

We present deep Chandra observations of the pulsar wind nebula (PWN) powered by PSR J0007+7303 in the composite supernova remnant CTA 1. The merged ACIS image shows a 20'' jet extending south of the pulsar and bending toward the southwest, a faint counter-jet to the north, and a compact torus oriented approximately perpendicular to the jet axis. Using an archival observation from 2003 we perform relative astrometry over a 20 yr baseline and constrain the pulsar's transverse velocity to 200~km~s-1 at the distance of 1.4 kpc at 95% confidence. Spatially resolved spectroscopy shows hard spectra for the jet and torus (photon indicies Γ≈ 1.2-1.4) and a softer spectrum for the extended nebula (Γ= 1.85 0.11), indicating minimal radiative cooling in the compact regions. Modeling of the torus, associated with the termination shock, as an inclined circle yields a viewing angle ζ≈ 50. The outer gap and two-pole caustic pulsar emission models then imply a moderate magnetic inclination (α 20-70). Broadband spectral energy distribution (SED) modeling from radio to PeV γ-rays for a one-zone leptonic scenario yields a low magnetic field (B ≈ 1.4-3.2~μG) and a high electron cutoff energy (E cut 0.2-0.3~PeV), indicating that the magnetic field decreases rapidly outside of the compact nebula. These results establish CTA 1 as a young, low X-ray efficiency PWN with a hard injection spectrum capable of accelerating particles to PeV energies.