Josu Aurrekoetxea

Self-interacting scalar dark matter around binary black holes

ArXiv 2409.01937 (2024)

Authors:

Josu C Aurrekoetxea, James Marsden, Katy Clough, Pedro G Ferreira

Robustness of inflation to kinetic inhomogeneities

ArXiv 2405.0349 (2024)

Authors:

Matthew Elley, Josu C Aurrekoetxea, Katy Clough, Raphael Flauger, Panagiotis Giannadakis, Eugene A Lim

Effect of Wave Dark Matter on Equal Mass Black Hole Mergers.

Physical review letters 132:21 (2024) 211401

Authors:

Josu C Aurrekoetxea, Katy Clough, Jamie Bamber, Pedro G Ferreira

Abstract:

For dark matter to be detectable with gravitational waves from binary black holes, it must reach higher than average densities in their vicinity. In the case of light (wavelike) dark matter, the density of dark matter between the binary can be significantly enhanced by accretion from the surrounding environment. Here we show that the resulting dephasing effect on the last ten orbits of an equal mass binary is maximized when the Compton wavelength of the scalar particle is comparable to the orbital separation, 2π/μ∼d. The phenomenology of the effect is different from the channels that are usually discussed, where dynamical friction (along the orbital path) and radiation of energy and angular momentum drive the dephasing, and is rather dominated by the radial force (the spacetime curvature in the radial direction) towards the overdensity between the black holes. While our numerical studies limit us to scales of the same order, this effect may persist at larger separations and/or particle masses, playing a significant role in the merger history of binaries.

Revisiting the Cosmic String Origin of GW190521.

Physical review letters 132:18 (2024) 181401

Authors:

Josu C Aurrekoetxea, Charlie Hoy, Mark Hannam

Abstract:

For the first time we analyze gravitational-wave strain data using waveforms constructed from strong gravity simulations of cosmic string loops collapsing to Schwarzschild black holes; a previously unconsidered source. Since the expected signal is dominated by a black-hole ringdown, it can mimic the observed gravitational waves from high-mass binary black hole mergers. To illustrate this, we consider GW190521, a short duration gravitational-wave event observed in the third LIGO-Virgo-KAGRA observing run. We show that describing this event as a collapsing cosmic string loop is favored over previous cosmic string analyses by an approximate log Bayes factor of 22. The binary black hole hypothesis is still preferred, mostly because the cosmic string remnant is nonspinning. It remains an open question whether a spinning remnant could form from loops with angular momentum, but if possible, it would likely bring into contention the binary black hole preference. Finally, we suggest that searches for ringdown-only waveforms would be a viable approach for identifying collapsing cosmic string events and estimating their event rate. This Letter opens up an important new direction for the cosmic-string and gravitational-wave communities.

Symmetry restoration and vacuum decay from accretion around black holes

ArXiv 2403.17595 (2024)

Authors:

James Marsden, Josu C Aurrekoetxea, Katy Clough, Pedro G Ferreira