Prospect of polarisation measurements from black hole binaries in their thermal state with a scattering polarimeter

TL;DR

This paper explores the potential of X-ray polarimetry to study black hole binaries in their thermal state, analyzing expected polarization signals and proposing a dedicated scattering polarimeter for future measurements.

Contribution

It presents an analysis of expected polarization detection from galactic black hole binaries and introduces a proposed scattering polarimeter for space-based observations.

Findings

Expected minimum detectable polarization levels for several black hole binaries.

Error estimates for polarization angle measurements across detection significances.

Development and proposal of a dedicated Thomson X-ray Polarimeter for space missions.

Abstract

X-ray polarisation measurement is a unique tool which may provide crucial information regarding the emission mechanism and the geometry of various astrophysical sources, like neutron stars, accreting black holes, pulsar wind nebulae, AGNs, Supernova Remnants etc. and can help us to probe matter under extreme magnetic fields and extreme gravitational fields. Although the three other domains of X-ray Astronomy i.e. timing, spectral and imaging are well developed, there has been very little progress in X-ray Polarimetry with only one definitive polarisation measurement and a few upper limits available so far. Radiation from accreting black holes in their thermal dominated (High Soft) state is expected to be polarised due to scattering in the plane parallel atmosphere of the disk. Also, special and general relativistic effects in the innermost parts of the disk predicts energy dependent rotation in the plane of polarisation and some distinct signatures which can be used as a probe for measuring the parameters of the black hole like its spin, emissivity profile and the angle of inclination of the system. We present the results from an analysis of expected minimum detectable polarisation from some of the galactic black hole binaries GRO J1655-40, GX339-4, H1743-322, Cyg X-1 and XTE J1817-330 in their thermal dominated state with a proposed Thomson X-ray Polarimeter. A proposal for a scattering polarimeter has been submitted to the Indian Space Research Organization (ISRO) for a dedicated small satellite mission and a laboratory unit has been built. Along with the measurement of the degree of polarisation, the polarisation angle measurement is also important, hence the error in the polarisation angle measurement for a range of detection significance is also obtained.