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Prospects for fundamental physics with LISA

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2001.09793v3.pdfPublished version536.96 kBAdobe PDFView/Open
Title: Prospects for fundamental physics with LISA
Authors: Barausse, E
Berti, E
Hertog, T
Hughes, SA
Jetzer, P
Pani, P
Sotiriou, TP
Tamanini, N
Witek, H
Yagi, K
Yunes, N
Abdelsalhin, T
Achucarro, A
Van Aelst, K
Afshordi, N
Akcay, S
Annulli, L
Arun, KG
Ayuso, I
Baibhav, V
Baker, T
Bantilan, H
Barreiro, T
Barrera-Hinojosa, C
Bartolo, N
Baumann, D
Belgacem, E
Bellini, E
Bellomo, N
Ben-Dayan, I
Bena, I
Benkel, R
Bergshoefs, E
Bernard, L
Bernuzzi, S
Bertacca, D
Besancon, M
Beutler, F
Beyer, F
Bhagwat, S
Bicak, J
Biondini, S
Bize, S
Blas, D
Boehmer, C
Boller, K
Bonga, B
Bonvin, C
Bosso, P
Bozzola, G
Brax, P
Breitbach, M
Brito, R
Bruni, M
Bruegmann, B
Bulten, H
Buonanno, A
Burko, LM
Burrage, C
Cabral, F
Calcagni, G
Caprini, C
Cardenas-Avendano, A
Celoria, M
Chatziioannou, K
Chernoff, D
Clough, K
Coates, A
Comelli, D
Compere, G
Croon, D
Cruces, D
Cusin, G
Dalang, C
Danielsson, U
Das, S
Datta, S
De Boer, J
De Luca, V
De Rham, C
Desjacques, V
Destounis, K
Filippo, FD
Dima, A
Dimastrogiovanni, E
Dolan, S
Doneva, D
Duque, F
Durrer, R
East, W
Easther, R
Elley, M
Ellis, JR
Emparan, R
Ezquiaga, JM
Fairbairn, M
Fairhurst, S
Farmer, HF
Fasiello, MR
Ferrari, V
Ferreira, PG
Ficarra, G
Figueras, P
Fisenko, S
Foffa, S
Franchini, N
Franciolini, G
Fransen, K
Frauendiener, J
Frusciante, N
Fujita, R
Gair, J
Ganz, A
Garcia, P
Garcia-Bellido, J
Garriga, J
Geiger, R
Geng, C
Gergely, LA
Germani, C
Gerosa, D
Giddings, SB
Gourgoulhon, E
Grandclement, P
Graziani, L
Gualtieri, L
Haggard, D
Haino, S
Halburd, R
Han, W-B
Hawken, AJ
Hees, A
Heng, IS
Hennig, J
Herdeiro, C
Hervik, S
Holten, JV
Hoyle, CD
Hu, Y
Hull, M
Ikeda, T
Isi, M
Jenkins, A
Julie, F
Kajfasz, E
Kalaghatgi, C
Kaloper, N
Kamionkowski, M
Karas, V
Kastha, S
Keresztes, Z
Kidder, L
Kimpson, T
Klein, A
Klioner, S
Kokkotas, K
Kolesova, H
Kolkowitz, S
Kopp, J
Koyama, K
Krishnendu, NV
Kroon, JAV
Kunz, M
Lahav, O
Landragin, A
Lang, RN
Poncin-Lafitte, CL
Lemos, J
Li, B
Liberati, S
Liguori, M
Lin, F
Liu, G
Lobo, FSN
Loll, R
Lombriser, L
Lovelace, G
Macedo, RP
Madge, E
Maggio, E
Maggiore, M
Marassi, S
Marcoccia, P
Markakis, C
Martens, W
Martinovic, K
Martins, CJAP
Maselli, A
Mastrogiovanni, S
Matarrese, S
Matas, A
Mavromatos, NE
Mazumdar, A
Meerburg, PD
Megias, E
Miller, J
Mimoso, JP
Mittnacht, L
Montero, MM
Moore, B
Martin-Moruno, P
Musco, I
Nakano, H
Nampalliwar, S
Nardini, G
Nielsen, A
Novak, J
Nunes, NJ
Okounkova, M
Oliveri, R
Oppizzi, F
Orlando, G
Oshita, N
Pappas, G
Paschalidis, V
Peiris, H
Peloso, M
Perkins, S
Pettorino, V
Pikovski, I
Pilo, L
Podolsky, J
Pontzen, A
Prabhat, S
Pratten, G
Prokopec, T
Prouza, M
Qi, H
Raccanelli, A
Rajantie, A
Randall, L
Raposo, G
Raymond, V
Renaux-Petel, S
Ricciardone, A
Riotto, A
Robson, T
Roest, D
Rollo, R
Rosofsky, S
Ruan, JJ
Rubiera-Garcia, D
Ruiz, M
Rusu, M
Sabatie, F
Sago, N
Sakellariadou, M
Saltas, ID
Sberna, L
Sathyaprakash, B
Scheel, M
Schmidt, P
Schutz, B
Schwaller, P
Shao, L
Shapiro, SL
Shoemaker, D
Silva, AD
Simpson, C
Sopuerta, CF
Spallicci, A
Stefanek, BA
Stein, L
Stergioulas, N
Stott, M
Sutton, P
Svarc, R
Tagoshi, H
Tahamtan, T
Takeda, H
Tanaka, T
Tantilian, G
Tasinato, G
Tattersall, O
Teukolsky, S
Tiec, AL
Theureau, G
Trodden, M
Tolley, A
Toubiana, A
Traykova, D
Tsokaros, A
Unal, C
Unnikrishnan, CS
Vagenas, EC
Valageas, P
Vallisneri, M
Brand, JVD
Broeck, CVD
De Meent, MV
Vanhove, P
Varma, V
Veitch, J
Vercnocke, B
Verde, L
Vernieri, D
Vernizzi, F
Vicente, R
Vidotto, F
Visser, M
Vlah, Z
Vretinaris, S
Voelkel, S
Wang, Q
Wang, Y-T
Werner, MC
Westernacher, J
Weygaert, RVD
Wiltshire, D
Wiseman, T
Wolf, P
Wu, K
Yamada, K
Yang, H
Yi, L
Yue, X
Yvon, D
Zilhao, M
Zimmerman, A
Zumalacarregui, M
Item Type: Journal Article
Abstract: In this paper, which is of programmatic rather than quantitative nature, we aim to further delineate and sharpen the future potential of the LISA mission in the area of fundamental physics. Given the very broad range of topics that might be relevant to LISA,we present here a sample of what we view as particularly promising fundamental physics directions. We organize these directions through a “science-first” approach that allows us to classify how LISA data can inform theoretical physics in a variety of areas. For each of these theoretical physics classes, we identify the sources that are currently expected to provide the principal contribution to our knowledge, and the areas that need further development. The classification presented here should not be thought of as cast in stone, but rather as a fluid framework that is amenable to change with the flow of new insights in theoretical physics.
Issue Date: 31-Aug-2020
Date of Acceptance: 16-Apr-2020
URI: http://hdl.handle.net/10044/1/87350
DOI: 10.1007/s10714-020-02691-1
ISSN: 0001-7701
Publisher: Springer
Start Page: 1
End Page: 33
Journal / Book Title: General Relativity and Gravitation
Volume: 52
Issue: 8
Copyright Statement: © Springer Science+Business Media, LLC, part of Springer Nature 2020. The final publication is available at Springer via https://doi.org/10.1007/s10714-020-02691-1
Keywords: Science & Technology
Physical Sciences
Astronomy & Astrophysics
Physics, Multidisciplinary
Physics, Particles & Fields
Physics
Gravitational waves
LISA
Fundamental physics
GAS PILE-UP
BLACK-HOLES
GRAVITATIONAL-WAVES
GENERAL-RELATIVITY
1.5 MIGRATION
CONSTANT
GRAVITY
TESTS
EVOLUTION
OVERFLOW
Science & Technology
Physical Sciences
Astronomy & Astrophysics
Physics, Multidisciplinary
Physics, Particles & Fields
Physics
Gravitational waves
LISA
Fundamental physics
GAS PILE-UP
BLACK-HOLES
GRAVITATIONAL-WAVES
GENERAL-RELATIVITY
1.5 MIGRATION
CONSTANT
GRAVITY
TESTS
EVOLUTION
OVERFLOW
gr-qc
gr-qc
0105 Mathematical Physics
0201 Astronomical and Space Sciences
0206 Quantum Physics
Nuclear & Particles Physics
Publication Status: Published
Article Number: ARTN 81
Online Publication Date: 2020-08-31
Appears in Collections:Physics
Theoretical Physics
Faculty of Natural Sciences