# AstroSat observation of GX 5-1: Spectral and timing evolution

**Authors:** Yashpal Bhulla, Ranjeev Misra, J.S. Yadav, S.N.A Jaaffrey

arXiv: 1903.11986 · 2020-02-17

## TL;DR

This study analyzes AstroSat observations of GX 5-1, revealing spectral and timing evolution, including the dominance of disk or Comptonized emission along different branches and the behavior of QPOs.

## Contribution

First detailed spectral and timing analysis of GX 5-1 using AstroSat data, linking spectral states to QPO properties and disk behavior.

## Key findings

- Disk flux ratio increases from horizontal to normal branch.
- QPO frequency correlates with disk flux ratio.
- Hard X-ray lag indicates corona origin of QPO.

## Abstract

We report on the first analysis of AstroSat observation of the Z-source GX 5- 1 on February 26-27, 2017. The hardness-intensity plot reveals that the source traced out the horizontal and normal branches. The 0.8-20 keV spectra from simultaneous SXT and LAXPC data at different locations of the hardness-intensity plot can be well described by a disk emission and a thermal Comptonized component. The ratio of the disk flux to the total i.e. the disk flux ratio increases monotonically along the horizontal to the normal one. Thus, the difference between the normal and horizontal branches is that in the normal branch, the disk dominates the flux while in the horizontal one it is the Comptonized component which dominates. The disk flux scales with the inner disk temperature as T_{in}^{5.5} and not as T_{in}{4} suggesting that either the inner radii changes dramatically or that the disk is irradiated by the thermal component changing its hardness factor. The power spectra reveal a Quasi Periodic Oscillation whose frequency changes from \sim 30 Hz to 50 Hz. The frequency is found to correlate well with the disk flux ratio. In the 3-20 keV LAXPC band the r.m.s of the QPO increases with energy (r.m.s \prop E0.8), while the harder X-ray seems to lag the soft ones with a time-delay of a milliseconds. The results suggest that the spectral properties of the source are characterized by the disk flux ratio and that the QPO has its origin in the corona producing the thermal Comptonized component.

## Full text

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## Figures

26 figures with captions in the complete paper: https://tomesphere.com/paper/1903.11986/full.md

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Source: https://tomesphere.com/paper/1903.11986