# The Delay Time of Gravitational Wave -- Gamma-Ray Burst Associations

**Authors:** Bing Zhang

arXiv: 1905.00781 · 2019-07-18

## TL;DR

This paper analyzes the delay times between gravitational wave signals and gamma-ray bursts, exploring their astrophysical origins and implications for jet launching mechanisms in different types of GRB associations.

## Contribution

It provides a theoretical framework for understanding the delay times in GW-GRB associations, considering various jet launching and breakout scenarios.

## Key findings

- Delay times range from milliseconds to hours depending on the association type.
- CBC-sGRB delays are correlated and typically within seconds.
- GWB-lGRB delays are longer, at least 10 seconds or more.

## Abstract

The first gravitational wave (GW) - gamma-ray burst (GRB) association, GW170817/GRB 170817A, had an offset in time, with the GRB trigger time delayed by $\sim$1.7 s with respect to the merger time of the GW signal. We generally discuss the astrophysical origin of the delay time, $\Delta t$, of GW-GRB associations within the context of compact binary coalescence (CBC) -- short GRB (sGRB) associations and GW burst -- long GRB (lGRB) associations. In general, the delay time should include three terms, the time to launch a clean (relativistic) jet, $\Delta t_{\rm jet}$; the time for the jet to break out from the surrounding medium, $\Delta t_{\rm bo}$; and the time for the jet to reach the energy dissipation and GRB emission site, $\Delta t_{\rm GRB}$. For CBC-sGRB associations, $\Delta t_{\rm jet}$ and $\Delta t_{\rm bo}$ are correlated, and the final delay can be from 10 ms to a few seconds. For GWB-lGRB associations, $\Delta t_{\rm jet}$ and $\Delta t_{\rm bo}$ are independent. The latter is at least $\sim$10 s, so that $\Delta t$ of these associations is at least this long. For certain jet launching mechanisms of lGRBs, $\Delta t$ can be minutes or even hours long due to the extended engine waiting time $\Delta t_{\rm wait}$ to launch a jet. We discuss the cases of GW170817/GRB 170817A and GW150914/GW150914-GBM within this theoretical framework and suggest that the delay times of future GW/GRB associations will shed light into the jet launching mechanisms of GRBs.

## Full text

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## Figures

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## References

86 references — full list in the complete paper: https://tomesphere.com/paper/1905.00781/full.md

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Source: https://tomesphere.com/paper/1905.00781