Dr Katy Clough

Quasinormal modes of growing dirty black holes

Physical Review D American Physical Society 103:12 (2021)

Authors:

J Bamber, Oj Tattersall, K Clough, Pg Ferreira

Abstract:

The ringdown of a perturbed black hole contains fundamental information about space-time in the form of quasinormal modes (QNM). Modifications to general relativity, or extended profiles of other fields surrounding the black hole, so called "black hole hair", can perturb the QNM frequencies. Previous works have examined the QNM frequencies of spherically symmetric "dirty"black holes; that is black holes surrounded by arbitrary matter fields. Such analyses were restricted to static systems, making the assumption that the metric perturbation was independent of time. However, in most physical cases such black holes will actually be growing dynamically due to accretion of the surrounding matter. Here we develop a perturbative analytic method that allows us to compute for the first time the time dependent QNM deviations of such growing dirty black holes. Whilst both are small, we show that the change in QNM frequency due to the accretion can be of the same order or larger than the change due to the static matter distribution itself, and therefore should not be neglected in such calculations. We present the case of spherically symmetric accretion of a complex scalar field as an illustrative example, but the method has the potential to be extended to more complicated cases.

Oscillon collapse to black holes

Journal of Cosmology and Astroparticle Physics IOP Publishing 2021 (2021) 027

Authors:

Zainab Nazari, Michele Cicoli, Katherine Clough, francesco Muia

Abstract:

Using numerical relativity simulations we study the dynamics of pseudo-topological objects called oscillons for a class of models inspired by axion-monodromy. Starting from free field solutions supported by gravitational attractions, we investigate the effect of adding self-interactions, and contrast this with the effect of adding self-interactions whilst removing gravitational support. We map out regions of the parameter space where the initial conditions rapidly collapse to black holes, and other regions where they remain pseudo-stable or disperse.

Growth of accretion driven scalar hair around Kerr black holes

Physical Review D American Physical Society (APS) 103:4 (2021) 44059

Authors:

Jamie Bamber, Katy Clough, Pedro G Ferreira, Lam Hui, Macarena Lagos

Prospects for fundamental physics with LISA

GENERAL RELATIVITY AND GRAVITATION 52:8 (2020) ARTN 81

Authors:

Enrico Barausse, Emanuele Berti, Thomas Hertog, Scott A Hughes, Philippe Jetzer, Paolo Pani, Thomas P Sotiriou, Nicola Tamanini, Helvi Witek, Kent Yagi, Nicolas Yunes, T Abdelsalhin, A Achucarro, K van Aelst, N Afshordi, S Akcay, L Annulli, KG Arun, I Ayuso, V Baibhav, T Baker, H Bantilan, T Barreiro, C Barrera-Hinojosa, N Bartolo, D Baumann, E Belgacem, E Bellini, N Bellomo, I Ben-Dayan, I Bena, R Benkel, E Bergshoefs, L Bernard, S Bernuzzi, D Bertacca, M Besancon, F Beutler, F Beyer, S Bhagwat, J Bicak, S Biondini, S Bize, D Blas, C Boehmer, K Boller, B Bonga, C Bonvin, P Bosso, G Bozzola, P Brax, M Breitbach, R Brito, M Bruni, B Bruegmann, H Bulten, A Buonanno, LM Burko, C Burrage, F Cabral, G Calcagni, C Caprini, A Cardenas-Avendano, M Celoria, K Chatziioannou, D Chernoff, K Clough, A Coates, D Comelli, G Compere, D Croon, D Cruces, G Cusin, C Dalang, U Danielsson, S Das, S Datta, J de Boer, V De Luca, C De Rham, V Desjacques, K Destounis, F Di Filippo, A Dima, E Dimastrogiovanni, S Dolan, D Doneva, F Duque, R Durrer, W East, R Easther, M Elley, JR Ellis, R Emparan, JM Ezquiaga, M Fairbairn, S Fairhurst, HF Farmer, MR Fasiello, V Ferrari, PG Ferreira, G Ficarra, P Figueras, S Fisenko, S Foffa, N Franchini, G Franciolini, K Fransen, J Frauendiener, N Frusciante, R Fujita, J Gair, A Ganz, P Garcia, J Garcia-Bellido, J Garriga, R Geiger, C Geng, LA Gergely, C Germani, D Gerosa, SB Giddings, E Gourgoulhon, P Grandclement, L Graziani, L Gualtieri, D Haggard, S Haino, R Halburd, W-B Han, AJ Hawken, A Hees, IS Heng, J Hennig, C Herdeiro, S Hervik, JV Holten, CJD Hoyle, Y Hu, M Hull, T Ikeda, M Isi, A Jenkins, F Julie, E Kajfasz, C Kalaghatgi, N Kaloper, M Kamionkowski, V Karas, S Kastha, Z Keresztes, L Kidder, T Kimpson, A Klein, S Klioner, K Kokkotas, H Kolesova, S Kolkowitz, J Kopp, K Koyama, NV Krishnendu, JAV Kroon, M Kunz, O Lahav, A Landragin, RN Lang, C Le Poncin-Lafitte, J Lemos, B Li, S Liberati, M Liguori, F Lin, G Liu, FSN Lobo, R Loll, L Lombriser, G Lovelace, RP Macedo, E Madge, E Maggio, M Maggiore, S Marassi, P Marcoccia, C Markakis, W Martens, K Martinovic, CJAP Martins, A Maselli, S Mastrogiovanni, S Matarrese, A Matas, NE Mavromatos, A Mazumdar, PD Meerburg, E Megias, J Miller, JP Mimoso, L Mittnacht, MM Montero, B Moore, P Martin-Moruno, I Musco, H Nakano, S Nampalliwar, G Nardini, A Nielsen, J Novak, NJ Nunes, M Okounkova, R Oliveri, F Oppizzi, G Orlando, N Oshita, G Pappas, V Paschalidis, H Peiris, M Peloso, S Perkins, V Pettorino, I Pikovski, L Pilo, J Podolsky, A Pontzen, S Prabhat, G Pratten, T Prokopec, M Prouza, H Qi, A Raccanelli, A Rajantie, L Randall, G Raposo, V Raymond, S Renaux-Petel, A Ricciardone, A Riotto, T Robson, D Roest, R Rollo, S Rosofsky, JJ Ruan, D Rubiera-Garcia, M Ruiz, M Rusu, F Sabatie, N Sago, M Sakellariadou, ID Saltas, L Sberna, B Sathyaprakash, M Scheel, P Schmidt, B Schutz, P Schwaller, L Shao, SL Shapiro, D Shoemaker, AD Silva, C Simpson, CF Sopuerta, A Spallicci, BA Stefanek, L Stein, N Stergioulas, M Stott, P Sutton, R Svarc, H Tagoshi, T Tahamtan, H Takeda, T Tanaka, G Tantilian, G Tasinato, O Tattersall, S Teukolsky, AL Tiec, G Theureau, M Trodden, A Tolley, A Toubiana, D Traykova, A Tsokaros, C Unal, CS Unnikrishnan, EC Vagenas, P Valageas, M Vallisneri, J Van den Brand, C Van den Broeck, M van de Meent, P Vanhove, V Varma, J Veitch, B Vercnocke, L Verde, D Vernieri, F Vernizzi, R Vicente, F Vidotto, M Visser, Z Vlah, S Vretinaris, S Voelkel, Q Wang, Yu-Tong Wang, MC Werner, J Westernacher, RVD Weygaert, D Wiltshire, T Wiseman, P Wolf, K Wu, K Yamada, H Yang, L Yi, X Yue, D Yvon, M Zilhao, A Zimmerman, M Zumalacarregui

The effects of potential shape on inhomogeneous inflation

Journal of Cosmology and Astroparticle Physics 2020:5 (2020)

Authors:

Jc Aurrekoetxea, K Clough, R Flauger, Ea Lim

Abstract:

© 2020 IOP Publishing Ltd and Sissa Medialab. We study the robustness of single-field inflation against inhomogeneities. We derive a simple analytic criterion on the shape of the potential for successful inflation in the presence of inhomogeneities, and demonstrate its validity using full 3+1 dimensional numerical relativity simulations on several classes of popular models of single-field inflation. We find that models with convex potentials are more robust to inhomogeneities than those with concave potentials, and that concave potentials that vary on super-Planckian scales are significantly more robust than those that vary on sub-Planckian scales.