# The source number counts at high energies: SWIFT vs. NuSTAR

**Authors:** A. Akylas, I. Georgantopoulos (IAASARS, National Observatory of, Athens)

arXiv: 1902.05137 · 2019-05-29

## TL;DR

This study compares high-energy X-ray source counts from Swift and NuSTAR, revealing differences in slopes and flux upturns, and assesses how well AGN population models match observed data across different energy bands.

## Contribution

It provides a detailed comparison of X-ray source counts from Swift and NuSTAR, highlighting discrepancies and testing AGN population synthesis models against observational data.

## Key findings

- Swift counts follow a Euclidean slope at high energies.
- NuSTAR counts show a steeper slope with an upturn at low fluxes.
- Good agreement between models and bright NuSTAR counts in certain bands.

## Abstract

The hard X-ray sky at energies above 10 keV, has been extensively explored by the Swift and the NuSTAR missions in the 14-195 keV and the 3-24 keV bands respectively. The major population of the hard X-ray detected sources are AGN. We compare the number count distributions derived from the swift 105-month catalogue with those from the serendipitous NuSTAR source catalogue.   In the 14-195 keV band, the Swift/BAT counts follow a Euclidean slope with alpha=1.51+/-0.10 (90% confidence level).   The NuSTAR counts in the 8-24 keV band present a steeper slope with alpha = 1.71+/- 0.2$, because of an upturn at fluxes below ~2x10^{-13} erg/cm2/s.   The same upturn is observed in the soft (3-8 keV) NuSTAR number counts, which in overall also present a steep slope with alpha = 1.82+/- 0.15.   Only the bright part of the NuSTAR 3-8 keV counts agrees with the chandra number counts in the 2-10 keV band while the fainter part (<7x10^{-13} erg/cm2/s ) of the soft NuSTAR counts is in marked disagreement with the chandra counts.   Next, we compare the derived number counts in the different bands using our X-ray AGN population synthesis models.   The comparison between the Chandra and the Swift/BAT number counts shows a very good agreement for the 'standard' AGN spectrum with a power-law slope Gamma=1.9, a high energy cut-off at ~130 keV and a 2-10 keV reflection component of 3%.   On the other hand, using the above standard AGN spectral model, only the bright part of the NuSTAR 8-24 keV and 3-8 keV number counts, agree with the model predictions.   Then it is most likely that the disagreement between the X-ray number counts in the different bands is because of the faint NuSTAR number counts. We discuss various possibilities for the origin of this disagreement.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1902.05137/full.md

## References

29 references — full list in the complete paper: https://tomesphere.com/paper/1902.05137/full.md

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Source: https://tomesphere.com/paper/1902.05137