An early warning system for electromagnetic follow-up of gravitational-wave events

TL;DR

This paper presents a detection pipeline for early warning of gravitational-wave events from binary neutron star mergers, enabling potential electromagnetic follow-up seconds before the merger occurs.

Contribution

It introduces and tests an early warning detection system capable of identifying BNS mergers tens of seconds before the actual collision.

Findings

7% of detectable BNS mergers detected 60s before merger

49% detected 10s before merger

2% localized within 100 square degrees before merger

Abstract

Binary neutron stars (BNSs) will spend $\simeq 10$ -- 15 minutes in the band of Advanced LIGO and Virgo detectors at design sensitivity. Matched-filtering of gravitational-wave (GW) data could in principle accumulate enough signal-to-noise ratio (SNR) to identify a forthcoming event tens of seconds before the companions collide and merge. Here we report on the design and testing of an early warning gravitational-wave detection pipeline. Early warning alerts can be produced for sources that are at low enough redshift so that a large enough SNR accumulates $\sim 10 - 60\,\rm s$ before merger. We find that about 7% (respectively, 49%) of the total detectable BNS mergers will be detected $60\, \rm s$ ($10\, \rm s$) before the merger. About 2% of the total detectable BNS mergers will be detected before merger and localized to within $100\, \rm \text{deg}^2$ (90% credible interval). Coordinated observing by several wide-field telescopes could capture the event seconds before or after the merger. LIGO-Virgo detectors at design sensitivity could facilitate observing at least one event at the onset of merger.