MAXI J0637-430: A Possible Candidate for Bulk Motion Comptonization?

TL;DR

This study analyzes the spectral evolution of the black hole candidate MAXI J0637-430 during its 2019-2020 outburst, suggesting the possible presence of bulk motion Comptonization in the high soft state.

Contribution

It provides the first detailed spectral analysis of MAXI J0637-430 using multi-instrument data and introduces evidence for bulk motion Comptonization during the early high soft state.

Findings

Detection of an additional spectral component in early epochs.

Estimated black hole mass as approximately 8.1 solar masses.

Indication of bulk motion Comptonization during the high soft state.

Abstract

The transient Galactic black hole candidate MAXI J0637-430 went through an outburst in 2019--20 for the very first time. This outburst was active for almost 6 months from November 2019 to May 2020. We study the spectral properties of this source during that outburst using archival data from NICER, Swift, and NuSTAR satellites/instruments. We have analyzed the source during 6 epochs on which simultaneous NICER--NuSTAR and Swift/XRT--NuSTAR data were available. Using both phenomenological and physical model fitting approaches, we analyzed the spectral data in the broad $0.7-70$ keV energy band. We first used a combination of disk blackbody with power-law, disk blackbody with broken power-law, and disk blackbody with power-law and bmc models. For a better understanding of the accretion picture, e.g., understanding how the accretion rates change with the changing size of the perceived Compton cloud, we used the two-component advective flow (TCAF) model with broken power-law, TCAF with power-law and bmc models. For last 3 epochs, the diskbb+power-law and TCAF models were able to spectrally fit the data for acceptable $\chi^2/DOF$. However, for the first 3 epochs, we needed an additional component to fit spectra for acceptable $\chi^2/DOF$. From our analysis, we reported about the possible presence of another component during these first 3 epochs when the source was in the high soft state. This additional component in this state is best described by the bulk motion Comptonization phenomenon. From the TCAF model fitting, we estimated the average mass of the source as $8.1^{+1.3}_{-2.7}~M_\odot$.