This study presents a comprehensive spectro-polarimetric analysis of the neutron star low-mass X-ray binary XTE J1701-462 during its 2022 outburst. The key findings are:
Significant X-ray polarization is detected on the horizontal branch (HB) of the Z-track, with a polarization degree (PD) of ~5%. The PD decreases to ~3.8% as the source moves along the HB and drops to ≤1% on the normal branch (NB).
Simultaneous spectral analysis using Insight-HXMT and NuSTAR data reveals that the evolution of the PD is closely linked to changes in the flux and covering factor of the Comptonized component along the Z-track.
Under the "eastern model" scenario, the decreasing PD can be explained by a reduction in the size or coverage of the Comptonizing corona around the neutron star as the source evolves from the HB to the NB.
Under the "western model" scenario, the decreasing PD can be attributed to a thinning of an extended slab/wedge corona that covers most of the inner accretion disk.
In both scenarios, the extremely low PD and near-zero covering factor of the Comptonized component on the NB indicate a significant evolution in the accretion flow, with the Comptonizing corona nearly disappearing.
The correlated spectro-polarimetric study provides new insights into the accretion geometry and its evolution in the neutron star X-ray binary XTE J1701-462.
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