Linear Polarization in a Black Hole, 4U~1957+115 and its X-ray Spectral Analysis

Abstract

We present a new spectro-polarimetric method for estimation of the inclination of X-ray binaries using the linear polarization (LP) value in black hole (BH) sources, based on the early paper by Sunyaev \& Titarchuk (1985, ST85). The X-ray LP arises from multiple scattering of initially soft photons in a hot, optically thick Compton cloud (CC) using a flat geometry. ST85 showed that the LP degree P depends on the binary inclination i and remains independent of the photon energy. Moreover, the P follows a characteristic angular distribution based on the CC optical depth τ0, in particular for τ0 > 10 the LP follows the Chandrasekhar (1950) distribution. In light of the vast number of recent IXPE spectro-polarimetric observations of BHs, testing this approach in combination with spectral analysis of these sources by other missions is desirable. In particular, the BH source, 4U 1957+115 was observed with IXPE in the high/soft state for which P 2\% was found (Marra et al. 2024). To apply the new method, in addition to knowing P for a given source, it is necessary to estimate the CC optical depth τ0 and then to calculate of the best-fit photon index and the plasma temperature kTe. We present the X-ray spectral analysis of 4U~1957+11 using data from IXPE, NuSTAR, NICER, RXTE, Swift, Suzaku and ASCA. We show that the X-ray source spectra are well described by the Comptonization model with varying from 1.5 to 3. We find a monotonic increase in with the mass accretion rate, M, and a final saturation of the index at 3 for high M. We determine a BH mass by the scaling method: M1957=4.8 1.8~M, assuming a source distance of 22 kpc, using H 1743-322, 4U 1630-47, and GRS 1915+105 as reference sources.