Neutron Stars and Black Holes in the Small Magellanic Cloud: The SMC NuSTAR Legacy Survey

TL;DR

This study presents a deep hard X-ray survey of the Small Magellanic Cloud using NuSTAR, detecting and characterizing X-ray sources, including pulsars, and providing insights into their nature and variability.

Contribution

It is the first deep NuSTAR survey of the SMC, detecting faint X-ray binaries and pulsars, and identifying the first pulsations from a Be-XRB in the galaxy.

Findings

Detected 10 sources above 3σ significance in 4-25 keV band.

Confirmed pulsations for seven pulsars, including the first from a Be-XRB.

Provided spectral and luminosity analysis suggesting classifications of sources.

Abstract

We present a source catalog from the first deep hard X-ray ($E>10$ keV) survey of the Small Magellanic Cloud (SMC), the NuSTAR Legacy Survey of the SMC. We observed three fields, for a total exposure time of 1 Ms, along the bar of this nearby star-forming galaxy. Fields were chosen for their young stellar and accreting binary populations. We detected 10 sources above a 3$\sigma$ significance level (4$-$25 keV) and obtained upper limits on an additional 40 sources. We reached a 3$\sigma$ limiting luminosity in the 4$-$25 keV band of $\sim$ $10^{35}$ erg s$^{-1}$, allowing us to probe fainter X-ray binary (XRB) populations than has been possible with other extragalactic NuSTAR surveys. We used hard X-ray colors and luminosities to constrain the compact-object type, exploiting the spectral differences between accreting black holes and neutron stars at $E>10$ keV. Several of our sources demonstrate variability consistent with previously observed behavior. We confirmed pulsations for seven pulsars in our 3$\sigma$ sample. We present the first detection of pulsations from a Be-XRB, SXP305 (CXO J005215.4$-$73191), with an X-ray pulse period of $305.69\pm0.16$ seconds and a likely orbital period of $\sim$1160-1180 days. Bright sources ($\gtrsim 5\times 10^{36}$ erg s$^{-1}$) in our sample have compact-object classifications consistent with their previously reported types in the literature. Lower luminosity sources ($\lesssim 5\times 10^{36}$ erg s$^{-1}$) have X-ray colors and luminosities consistent with multiple classifications. We raise questions about possible spectral differences at low luminosity between SMC pulsars and the Galactic pulsars used to create the diagnostic diagrams.