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Arianna I. Renzini
Researcher at Imperial College London
Publications - 28
Citations - 441
Arianna I. Renzini is an academic researcher from Imperial College London. The author has contributed to research in topics: Gravitational wave & Detector. The author has an hindex of 6, co-authored 9 publications receiving 124 citations.
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Journal ArticleDOI
Stochastic Gravitational-Wave Backgrounds: Current Detection Efforts and Future Prospects
TL;DR: In this article , the authors provide an overview of GW signals and characterise them based on features of interest such as generation processes and observational properties, and offer a ready-to-use manual for stochastic GW searches.
Journal ArticleDOI
Probing anisotropies of the Stochastic Gravitational Wave Background with LISA
N. Bartolo,Daniele Bertacca,Robert R. Caldwell,Carlo R. Contaldi,Giulia Cusin,V. De Luca,Emanuela Dimastrogiovanni,Matteo Fasiello,Daniel G. Figueroa,Gabriele Franciolini,Alexander C. Jenkins,Marco Peloso,Mauro Pieroni,Arianna I. Renzini,Angelo Ricciardone,Antonio Riotto,Mairi Sakellariadou,Lorenzo Sorbo,Gianmassimo Tasinato,Jesús Torrado,Sebastien Clesse,Sachiko Kuroyanagi +21 more
TL;DR: In this article , the authors investigated the sensitivity of the LISA to the anisotropies of the Stochastic Gravitational Wave Background (SGWB) with a power-law frequency profile.
Journal ArticleDOI
Noise angular power spectrum of gravitational wave background experiments
David Alonso,Carlo R. Contaldi,Giulia Cusin,Giulia Cusin,Pedro G. Ferreira,Arianna I. Renzini +5 more
TL;DR: In this article, a model for the angular power spectrum of the instrumental noise in interferometer networks mapping gravitational wave background (GWBs) as a function of detector noise properties, network configuration, and scan strategy is presented.
Journal ArticleDOI
Mapping incoherent gravitational wave backgrounds
TL;DR: In this article, a pixel-based, maximum-likelihood map-maker was proposed to reconstruct sky maps of the signal of the signals of the LIGO detectors. But the mapmaker is limited to a subset of the data from the LASM-LIGO project.
Cosmology with the Laser Interferometer Space Antenna
Pierre Auclair,David Bacon,Tessa Baker,T. Barreiro,N. Bartolo,Enis Belgacem,Nicolas Bellomo,Ido Ben-Dayan,Daniele Bertacca,Marc Besancon,Jose J. Blanco-Pillado,Diego Blas,Guillaume Boileau,Gianluca Calcagni,Robert R. Caldwell,Chiara Caprini,Carmelita Carbone,Chia-ming Chang,Hsin-Yu Chen,Nelson Christensen,Sebastien Clesse,D. Comelli,G. Congedo,Carlo R. Contaldi,Marco Crisostomi,Djuna Lize Croon,Giulia Cusin,Daniel Cutting,Charles Dalang,V. De Luca,W. Del Pozzo,Vincent Desjacques,Emanuela Dimastrogiovanni,G. C. Dorsch,Jose María Ezquiaga,Matteo Fasiello,Daniel G. Figueroa,Raphael Flauger,Gabriele Franciolini,Noemi Frusciante,Jacopo Fumagalli,Juan Garcia-Bellido,Oliver Gould,Daniel E. Holz,Laura Iacconi,Rajeev Kumar Jain,Alexander C. Jenkins,Ryusuke Jinno,Cristian Joana,Nikolaos Karnesis,Thomas Konstandin,Kazuya Koyama,Jonathan Kozaczuk,Sachiko Kuroyanagi,D. Laghi,Marek Lewicki,Lucas Lombriser,Eric Madge,Michele Maggiore,Ameek Malhotra,Michele Mancarella,Vuk Mandic,Alberto Mangiagli,Sabino Matarrese,Anupam Mazumdar,Suvodip Mukherjee,Ilia Musco,Germano Nardini,Jose Miguel No,Theodoros Papanikolaou,Marco Peloso,Mauro Pieroni,Luigi Pilo,Alvise Raccanelli,Sébastien Renaux-Petel,Arianna I. Renzini,Angelo Ricciardone,Antonio Riotto,Joseph D. Romano,Rocco Rollo,Alberto Roper Pol,Ester Ruiz Morales,Mairi Sakellariadou,Ippocratis D. Saltas,Marco Scalisi,M. Schmitz,Pedro Schwaller,Olga Sergijenko,Geraldine Servant,Peera Simakachorn,Lorenzo Sorbo,L.J.S. Sousa,Lorenzo Speri,Daniele A. Steer,Nicola Tamanini,Gianmassimo Tasinato,Jesús Torrado,Caner Unal,Vincent Vennin,Daniele Vernieri,Filippo Vernizzi,Marta Volonteri,Jeremy M. Wachter,David Wands,Lukas T. Witkowski,Miguel Zumalac'arregui,James Annis,Fëanor Reuben Ares,P. P. Avelino,Anastasios Avgoustidis,Enrico Barausse,Alexander Bonilla,Camille Bonvin,Pasquale Bosso,Matteo Calabrese,Mesut cCalicskan,Jose A. R. Cembranos,Mikael Chala,David F. Chernoff,Katy Clough,A. W. Criswell,Saurya Das,António Da Silva,Pratika Dayal,Valerie Domcke,Ruth Durrer,Richard Easther,Stephanie Escoffier,Sandrine Ferrans,Chris L. Fryer,Jonathan R. Gair,Chris Gordon,Martin Hendry,Mark Hindmarsh,Deanna C. Hooper,E. Kajfasz,Joachim Kopp,Savvas M. Koushiappas,Utkarsh Kumar,Martin Kunz,Macarena Lagos,M. Lilley,Joanes Lizarraga,Francisco S. N. Lobo,Azadeh Maleknejad,Carlos Martins,P. Daniel Meerburg,Renate Meyer,José P. Mimoso,Savvas Nesseris,Nelson J. Nunes,Vasilis Oikonomou,Giorgio Orlando,Ogan Ozsoy,Fabio Pacucci,Antonella Palmese,Antoine Petiteau,Lucas Pinol,Simon Portegies Zwart,Geraint Pratten,Tomislav Prokopec,J. J. Quenby,Saeed Rastgoo,Diederik Roest,Kari Rummukainen,C. Schimd,A. Secroun,Carlos F. Sopuerta,Ismael Tereno,Andrew J. Tolley,Jon Urrestilla,Elias C. Vagenas,J. V. D. Vis,Rien van de Weygaert,Barry Wardell,David J. Weir,Graham White,Bogumila 'Swie.zewska,V. I. Zhdanov +178 more
TL;DR: A summary of the state of the art in LISA cosmology, theory and methods, and new opportunities to use gravitational wave observations by LISA to probe the universe can be found in this paper .