From NANOGrav to LIGO with metastable cosmic strings

We interpret the recent NANOGrav results in terms of a stochastic gravitational wave background from metastable cosmic strings. The observed amplitude of a stochastic signal can be translated into a range for the cosmic string tension and the mass of magnetic monopoles arising in theories of grand unification. In a sizable part of the parameter space, this interpretation predicts a large stochastic gravitational wave signal in the frequency band of ground-based interferometers, which can be probed in the very near future. We confront these results with predictions from successful inflation, leptogenesis and dark matter from the spontaneous breaking of a gauged B - L symmetry. (C) 2020 The Authors. Published by Elsevier B.V.

From NANOGrav to LIGO with metastable cosmic strings

Graph Chatbot

Time-Delay Cosmography: Measuring the Hubble Constant and Other Cosmological Parameters with Strong Gravitational Lensing

CURLING - I. The influence of point-like image approximation on the outcomes of cluster strong lens modelling

Euclid: Validation of the MontePython forecasting tools

Time-Delay Cosmography: Measuring the Hubble Constant and Other Cosmological Parameters with Strong Gravitational Lensing

CURLING - I. The influence of point-like image approximation on the outcomes of cluster strong lens modelling

Euclid: Validation of the MontePython forecasting tools