F
Filippo Vernizzi
Researcher at Université Paris-Saclay
Publications - 4
Citations - 334
Filippo Vernizzi is an academic researcher from Université Paris-Saclay. The author has contributed to research in topics: Entropy (arrow of time) & Principal (computer security). The author has an hindex of 4, co-authored 4 publications receiving 159 citations. Previous affiliations of Filippo Vernizzi include CERN.
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Prospects for Fundamental Physics with LISA
Enrico Barausse,Emanuele Berti,Thomas Hertog,Scott A. Hughes,Philippe Jetzer,Paolo Pani,Thomas P. Sotiriou,Nicola Tamanini,Helvi Witek,Kent Yagi,Nicolás Yunes,Tiziano Abdelsalhin,Ana Achúcarro,K. V. Aelst,Niayesh Afshordi,Sarp Akcay,Lorenzo Annulli,K. G. Arun,Ismael Ayuso,Vishal Baibhav,Tessa Baker,H. Bantilan,Tiago Barreiro,Cristian Barrera-Hinojosa,Nicola Bartolo,Daniel Baumann,Enis Belgacem,Emilio Bellini,Nicola Bellomo,Ido Ben-Dayan,Iosif Bena,Robert Benkel,E. Bergshoefs,Laura Bernard,Sebastiano Bernuzzi,Daniele Bertacca,M. Besancon,Florian Beutler,Florian Beyer,Swetha Bhagwat,Jiri Bicak,Simone Biondini,Sébastien Bize,Diego Blas,Christian G. Boehmer,Klaus J. Boller,Béatrice Bonga,Camille Bonvin,Pasquale Bosso,Gabriele Bozzola,Philippe Brax,Moritz Breitbach,Richard Brito,Marco Bruni,Bernd Brügmann,H. J. Bulten,Alessandra Buonanno,A. O. Burke,Lior M. Burko,Clare Burrage,Francisco Cabral,Gianluca Calcagni,Chiara Caprini,Alejandro Cárdenas-Avendaño,Marco Celoria,Katerina Chatziioannou,David F. Chernoff,Katy Clough,Andrew J. Coates,D. Comelli,Geoffrey Compère,Djuna Croon,D. Cruces,Giulia Cusin,Charles Dalang,U. Danielsson,Saurya Das,Sayak Datta,J. de Boer,V. De Luca,C. De Rham,Vincent Desjacques,Kyriakos Destounis,F. Di Filippo,Alexandru Dima,Emanuela Dimastrogiovanni,Sam R. Dolan,Daniela D. Doneva,F. Duque,Ruth Durrer,William E. East,Richard Easther,Matthew Elley,John Ellis,Roberto Emparan,Jose María Ezquiaga,Malcolm Fairbairn,Stephen Fairhurst,Hontas Farmer,Matteo Fasiello,Valeria Ferrari,Pedro G. Ferreira,G. Ficarra,Pau Figueras,S. Fisenko,Stefano Foffa,Nicola Franchini,Gabriele Franciolini,Kwinten Fransen,Jörg Frauendiener,Noemi Frusciante,R. Fujita,J. R. Gair,Alexander Ganz,Pedro García,Juan Garcia-Bellido,Jaume Garriga,Remi Geiger,C. Geng,László Á. Gergely,Cristiano Germani,Davide Gerosa,Steven B. Giddings,Eric Gourgoulhon,P. Grandclément,L. Graziani,Leonardo Gualtieri,Daryl Haggard,Sadakazu Haino,R. G. Halburd,Wen-Biao Han,A. J. Hawken,Aurélien Hees,Ik Siong Heng,Jörg Hennig,Carlos A. R. Herdeiro,Sigbjørn Hervik,J. v. Holten,C. D. Hoyle,Y. Hu,Mark A. Hull,T. Ikeda,Maximiliano Isi,Alexander C. Jenkins,Félix-Louis Julié,E. Kajfasz,C. V. Kalaghatgi,Nemanja Kaloper,Marc Kamionkowski,Vladimír Karas,Shilpa Kastha,Zoltán Keresztes,Larry Kidder,T. Kimpson,Antoine Klein,Sergei A. Klioner,Kostas D. Kokkotas,H. Kolesova,Shimon Kolkowitz,Joachim Kopp,Kazuya Koyama,N. V. Krishnendu,Juan A. Valiente Kroon,Martin Kunz,O. Lahav,Arnaud Landragin,R. N. Lang,C. Le Poncin-Lafitte,José P. S. Lemos,B. Li,Stefano Liberati,Michele Liguori,F. Lin,G. Liu,Francisco S. N. Lobo,Renate Loll,Lucas Lombriser,Geoffrey Lovelace,Rodrigo Panosso Macedo,Eric Madge,Elisa Maggio,Michele Maggiore,Stefania Marassi,Paolo Marcoccia,Charalampos Markakis,W. Martens,K. Martinovic,Carlos Martins,Andrea Maselli,S. Mastrogiovanni,S. Matarrese,Andrew Matas,Nick E. Mavromatos,Anupam Mazumdar,P. D. Meerburg,Eugenio Megias,J. S. Miller,José P. Mimoso,L. Mittnacht,Marina Martinez Montero,Ben Moore,Prado Martín-Moruno,Ilia Musco,Hiroyuki Nakano,Sourabh Nampalliwar,Germano Nardini,Alex B. Nielsen,J. Novák,Nelson J. Nunes,Maria Okounkova,Roberto Oliveri,F. Oppizzi,G. Orlando,Naritaka Oshita,George Pappas,Vasileios Paschalidis,Hiranya V. Peiris,Marco Peloso,Scott Perkins,V. Pettorino,Igor Pikovski,Luigi Pilo,J. Podolsky,Andrew Pontzen,S. Prabhat,Geraint Pratten,Tomislav Prokopec,M. Prouza,H. Qi,Alvise Raccanelli,Arttu Rajantie,Lisa Randall,Guilherme Raposo,Vivien Raymond,S. Renaux-Petel,Angelo Ricciardone,Antonio Riotto,Travis Robson,Diederik Roest,R. Rollo,Shawn Rosofsky,J. J. Ruan,Diego Rubiera-Garcia,Milton Ruiz,Mirabela Rusu,F. Sabatie,Norichika Sago,Mairi Sakellariadou,Ippocratis D. Saltas,Laura Sberna,Bangalore Suryanarayana Sathyaprakash,Mark A. Scheel,Patricia Schmidt,B. F. Schutz,Pedro Schwaller,Lijing Shao,Stuart L. Shapiro,D. H. Shoemaker,António Alves da Silva,C. Simpson,Carlos F. Sopuerta,Alessandro D. A. M. Spallicci,B. A. Stefanek,Leo C. Stein,Nikolaos Stergioulas,Matthew J. Stott,P. J. Sutton,R. Svarc,H. Tagoshi,T. Tahamtan,Hiroki Takeda,T. Tanaka,G. Tantilian,Gianmassimo Tasinato,Oliver J. Tattersall,Saul A. Teukolsky,Alexandre Le Tiec,G. Theureau,Mark Trodden,A. E. Tolley,Alexandre Toubiana,Dina Traykova,Antonios Tsokaros,Caner Unal,C. S. Unnikrishnan,Elias C. Vagenas,Patrick Valageas,Michele Vallisneri,J. F. J. van den Brand,C. Van Den Broeck,M. van de Meent,Pierre Vanhove,Vijay Varma,John Veitch,Bert Vercnocke,L. Verde,Daniele Vernieri,Filippo Vernizzi,Rodrigo Vicente,Francesca Vidotto,Matt Visser,Zvonimir Vlah,S. Vretinaris,Sebastian H. Völkel,Q. Wang,Yu-Tong Wang,M. C. Werner,J. Westernacher,Rien van de Weygaert,David L. Wiltshire,Toby Wiseman,Patrick D. Wolf,K. Wu,K. Yamada,Huan Yang,L. Yi,X. Yue,D. Yvon,Miguel Zilhão,Aaron Zimmerman,Miguel Zumalacárregui +320 more
TL;DR: In this paper, the future potential of the LISA mission in the area of fundamental physics is further delineated and sharpen by identifying the sources that are currently expected to provide the principal contribution to our knowledge, and the areas that need further development.
RepositoryDOI
EuCAPT White Paper: Opportunities and Challenges for Theoretical Astroparticle Physics in the Next Decade
R. Alves Batista,Amin,G. Barenboim,Nicola Bartolo,Daniel Baumann,A. Bauswein,Emilio Bellini,D. Benisty,Gianfranco Bertone,P. Blasi,C.G. Böhmer,Ž Bošnjak,T. Bringmann,Clare Burrage,M. Bustamante,J. Calderón Bustillo,C.T. Byrnes,F. Calore,R. Catena,D.G. Cerdeño,S.S. Cerri,Marco Chianese,Katy Clough,Alex Cole,P. Coloma,Adam Coogan,L. Covi,D. Cutting,A.C. Davis,C. De Rham,A. Di Matteo,G. Domènech,M. Drewes,T. Dietrich,T.D.P. Edwards,I. Esteban,R. Erdem,C. Evoli,Matteo Fasiello,S.M. Feeney,R.Z. Ferreira,A. Fialkov,N. Fornengo,S. Gabici,T. Galatyuk,Daniele Gaggero,D. Grasso,C. Guépin,J. Harz,M. Herrero-Valea,T. Hinderer,N.B. Hogg,D.C. Hooper,D. Iocco,J. Isern,Konstantin Karchev,Bradley J. Kavanagh,M. Korsmeier,K. Kotera,Kazuya Koyama,B. Krishnan,Julien Lesgourgues,J. Levi Said,Lucas Lombriser,C.S. Lorenz,S. Manconi,M. Mapelli,A. Marcowith,S.B. Markoff,D.J. Marsh,M. Martinelli,C.J.A.P. Martinsolami,P. Millington,P. Moesta,K. Nippel,V. Niro,E. O'Connor,F. Oikonomou,C.F. Paganini,G. Pagliaroli,Paolo Pani,C. Pfrommer,Silvia Pascoli,L. Pinol,L. Pizzuti,R.A. Porto,A. Pound,F. Quevedo,G.G. Raffelt,Alvise Raccanelli,E. Ramirez-Ruiz,M. Raveri,S. Renaux-Petel,Angelo Ricciardone,A. Rida Khalifeh,Antonio Riotto,R. Roiban,J. Rubio,M. Sahlén,Nashwan Sabti,L. Sagunski,N. Šarčević,K. Schmitz,Pedro Schwaller,T. Schwetz,A. Sedrakian,E. Sellentin,A. Serenelli,P.D. Serpico,E.I. Sfakianakis,S. Shalgar,A. Silvestri,I. Tamborra,Konstantinos Tanidis,D. Teresi,A.A. Tokareva,L. Tolos,S. Trojanowski,R. Trotta,C. Uhlemann,F.R. Urban,Filippo Vernizzi,A. van Vliet,F.L. Villante,A. Vincent,J. Vink,E. Vitagliano,Christophe Weniger,A. Wickenbrock,W. Winter,S. Zell,M. Zeng +131 more
TL;DR: The European Consortium for Astroparticle Theory (EuCAPT) white paper as mentioned in this paper explores upcoming theoretical opportunities and challenges for our field of research with particular emphasis on the possible synergies among different subfields, and the prospects for solving the most fundamental open questions with multi-messenger observations.
Journal ArticleDOI
δN formalism from superpotential and holography
TL;DR: In this article, the superpotential formalism is used to describe the evolution of D scalar fields during inflation, generalizing it to include the case with non-canonical kinetic terms.
Posted Content
Dark Energy after GW170817
TL;DR: In this article, the authors discuss the consequences of GW170817 and its electromagnetic counterpart for models of dark energy and modified gravity characterized by a single scalar degree of freedom and show that the deduced relations among operators do not introduce further tuning of the models, since they are stable under quantum corrections.