# A magnetar-powered X-ray transient as the aftermath of a binary   neutron-star merger

**Authors:** Y. Q. Xue, X. C. Zheng, Y. Li, W. N. Brandt, B. Zhang, B. Luo, B. B., Zhang, F. E. Bauer, H. Sun, B. D. Lehmer, X. F. Wu, G. Yang, X. Kong, J. Y., Li, M. Y. Sun, J.-X. Wang, F. Vito

arXiv: 1904.05368 · 2019-04-12

## TL;DR

This paper presents the discovery and analysis of an X-ray transient, CDF-S XT2, likely powered by a magnetar formed after a binary neutron star merger, supporting the connection between such mergers and X-ray transients.

## Contribution

It reports the identification of a second X-ray transient consistent with a magnetar-powered merger after GW170817, providing evidence for this phenomenon in the universe.

## Key findings

- CDF-S XT2's light curve matches magnetar-powered models.
- Event rate density aligns with neutron star merger rates.
- X-ray transient location suggests association with star-forming regions.

## Abstract

Neutron star-neutron star mergers are known to be associated with short gamma-ray bursts. If the neutron star equation of state is sufficiently stiff, at least some of such mergers will leave behind a supramassive or even a stable neutron star that spins rapidly with a strong magnetic field (i.e., a magnetar). Such a magnetar signature may have been observed as the X-ray plateau following a good fraction (up to 50%) of short gamma-ray bursts, and it has been expected that one may observe short gamma-ray burst-less X-ray transients powered by double neutron star mergers. A fast X-ray transient (CDF-S XT1) was recently found to be associated with a faint host galaxy whose redshift is unknown. Its X-ray and host-galaxy properties allow several possibleexplanations including a short gamma-ray burst seen off axis, a low-luminosity gamma-ray burst at high redshift, or a tidal disruption event involving an intermediate mass black hole and a white dwarf. Here we report a second X-ray transient, CDF-S XT2, that is associated with a galaxy at redshift z = 0.738. The light curve is fully consistent with being powered by a millisecond magnetar. More intriguingly, CDF-S XT2 lies in the outskirts of its star-forming host galaxy with a moderate offset from the galaxy center, as short bursts often do. The estimated event rate density of similar X-ray transients, when corrected to the local value, is consistent with the double neutron star merger rate density inferred from the detection of GW170817.

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/1904.05368/full.md

## References

57 references — full list in the complete paper: https://tomesphere.com/paper/1904.05368/full.md

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Source: https://tomesphere.com/paper/1904.05368