Broad-band spectral study of X-ray transient MAXI J1820+070 using Swift/XRT and NuSTAR

Abstract

We report on a NuSTAR and Swift/XRT observation of the newly discovered X-ray transient MAXI J1820+070. Swift/XRT and NuSTAR have concurrently observed the newly detected source on 14 March 2018. We have simultaneously fitted the broad-band spectra obtained from Swift/XRT and NuSTAR. The observed joint spectra in the energy range 0.6--78.0 keV are well modeled with a weak disk black-body emission, dominant thermal Comptonization and relativistic reflection fraction. We have detected a fluorescent Iron-Kα line relativistically broadened, and a Compton hump at 30 keV. We constrain the inner disk radius as well as the disk inclination angle and their values are found to be 4.1+0.8-0.6 RISCO (where RISCO radius of the innermost stable circular orbit) or 5.1+1.0-0.7 rg (where rg gravitational radius) and 29.8+3.0-2.7 respectively. The best fit broad-band spectra suggest that the source was in the hard state and evolving. The source emission is best described by weak thermal emission along with strong thermal Comptonization from a relatively cold, optically thick, geometrically thin and ionized accretion disk. X-ray spectral modeling helps us to understand the accretion and ejection properties in the vicinity of the compact object.