# Crystal Eye: a wide sight to the Universe looking for the   electromagnetic counterpart of gravitational waves

**Authors:** F. C. T. Barbato, G. Barbarino, A. Boiano, R. de Asmundis, F. Garufi,, F. Guarino, R. Guida, F. Renno

arXiv: 1904.03389 · 2020-12-09

## TL;DR

Crystal Eye is a proposed wide-field space observatory designed to detect and monitor X-ray and low-energy gamma-ray counterparts to gravitational wave events, enhancing multi-messenger astronomy with better coverage and coordination.

## Contribution

It introduces a novel wide field-of-view space-based detector on the ISS for real-time detection of electromagnetic counterparts to gravitational waves.

## Key findings

- Designed to scan 2π steradians in 90 minutes
- Expected to provide better resolution than Fermi GBM
- Aims to trigger and coordinate multi-wavelength observations

## Abstract

With the observation of the gravitational wave event of August 17th 2017 and then with those of the extragalactic neutrino of September 22nd, the multi messenger astronomy era has definitely begun. With the opening of this new panorama, it is necessary to have a perfect coordination of the several observatories. Crystal Eye is an experiment aimed at the exploration of the electromagnetic counterpart of the gravitational wave events. Such events generated by neutron stars collision (or mergers) are associated with gamma-ray bursts. It has actually been observed in the event GW170817 that there is an X-ray counterpart associated with the GW consistent with a short gamma-ray burst viewed off-axis. These X-ray emissions represent the missing observational link between short gamma-ray bursts and gravitational waves from neutron-star mergers. The experiment we propose is a wide field of view observatory (2{\pi} of local observation) in the energy range from tens of keV to few MeV designed to fly with International Space Station (ISS). The motion along the ISS orbit will allow the experiment to scan the sky at 4? in 90 minutes. The Crystal Eye objectives will be: to alert the community about events containing X-rays and low energy gamma-rays, to monitor long-term variabilities of X-ray sources, to stimulate multi-wavelength observations of variable objects, and to observe diffuse cosmic X-ray emissions. With its characteristics, Crystal Eye will provide the continuous exploration and monitoring of the Universe after a Gravitational Wave event with a better resolution than Fermi GBM. Thanks to its large field of view and its design, it has the potentiality to be the trigger for those present X ray-astronomy missions (Chandra, Swift, Integral XMM Newton) that are based on high angular resolution pointing experiment but that have unfortunately a very small field of view.

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/1904.03389/full.md

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Source: https://tomesphere.com/paper/1904.03389