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Astrophysics with the Laser Interferometer Space Antenna

Authors :
Amaro-Seoane, Pau
Andrews, Jeff
Sedda, Manuel Arca
Askar, Abbas
Balasov, Razvan
Bartos, Imre
Bavera, Simone S.
Bellovary, Jillian
Berry, Christopher P. L.
Berti, Emanuele
Bianchi, Stefano
Blecha, Laura
Blondin, Stéphane
Bogdanović, Tamara
Boissier, Samuel
Bonetti, Matteo
Bonoli, Silvia
Bortolas, Elisa
Breivik, Katie
Capelo, Pedro R.
Caramete, Laurentiu
Catorini, Federico
Charisi, Maria
Chaty, Sylvain
Chen, Xian
Chruślińska, Martyna
Chua, Alvin J. K.
Church, Ross
Colpi, Monica
D'Orazio, Daniela
Danielski, Camilla
Davies, Melvyn B.
Dayal, Pratika
De Rosa, Alessandra
Derdzinski, Andrea
Destounis, Kyriakos
Dotti, Massimo
Duţan, Ioana
Dvorkin, Irina
Fabj, Gaia
Foglizzo, Thierry
Ford, Saavik
Fouvry, Jean-Baptiste
Fragkos, Tassos
Fryer, Chris
Gaspari, Massimo
Gerosa, Davide
Graziani, Luca
Groot, Paul J.
Habouzit, Melanie
Haggard, Daryl
Haiman, Zoltan
Han, Wen-Biao
Istrate, Alina
Johansson, Peter H.
Khan, Fazeel Mahmood
Kimpson, Tomas
Kokkotas, Kostas
Kong, Albert
Korol, Valeriya
Kremer, Kyle
Kupfer, Thomas
Lamberts, Astrid
Larson, Shane
Lau, Mike
Liu, Dongliang
Lloyd-Ronning, Nicole
Lodato, Giuseppe
Lupi, Alessandro
Ma, Chung-Pei
Maccarone, Tomas
Mandel, Ilya
Mangiagli, Alberto
Mapelli, Michela
Mathis, Stefan
Mayer, Lucio
McGee, Sean
McKernan, Berry
Miller, M. Coleman
Mota, David F.
Mumpower, Matthew
Nasim, Syeda S.
Nelemans, Gijs
Noble, Scott
Pacucci, Fabio
Panessa, Francesca
Paschalidis, Vasileios
Pfister, Hugo
Porquet, Delphine
Quenby, John
Röpke, Fritz
Regan, John
Rosswog, Stephan
Ruiter, Ashley
Ruiz, Milton
Runnoe, Jessie
Schneider, Rafaella
Schnittman, Jeremy
Secunda, Amy
Sesana, Alberto
Seto, Naoki
Shao, Lijing
Shapiro, Stuart
Sopuerta, Carlos
Stone, Nick
Suvorov, Arthur
Tamanini, Nicola
Tamfal, Tomas
Tauris, Thomas
Temmink, Karel
Tomsick, John
Toonen, Silvia
Torres-Orjuela, Alejandro
Toscani, Martina
Tsokaros, Antonios
Unal, Caner
Vázquez-Aceves, Verónica
Valiante, Rosa
van Putten, Maurice
van Roestel, Jan
Vignali, Christian
Volonteri, Marta
Wu, Kinwah
Younsi, Ziri
Yu, Shenghua
Zane, Silvia
Zwick, Lorenz
Antonini, Fabio
Baibhav, Vishal
Barausse, Enrico
Rivera, Alexander Bonilla
Branchesi, Marica
Branduardi-Raymont, Graziella
Burdge, Kevin
Chakraborty, Srija
Cuadra, Jorge
Dage, Kristen
Davis, Benjamin
de Mink, Selma E.
Decarli, Roberto
Doneva, Daniela
Escoffier, Stephanie
Gandhi, Poshak
Haardt, Francesco
Lousto, Carlos O.
Nissanke, Samaya
Nordhaus, Jason
O'Shaughnessy, Richard
Zwart, Simon Portegies
Pound, Adam
Schussler, Fabian
Sergijenko, Olga
Spallicci, Alessandro
Vernieri, Daniele
Vigna-Gómez, Alejandro
Amaro-Seoane, Pau
Andrews, Jeff
Sedda, Manuel Arca
Askar, Abbas
Balasov, Razvan
Bartos, Imre
Bavera, Simone S.
Bellovary, Jillian
Berry, Christopher P. L.
Berti, Emanuele
Bianchi, Stefano
Blecha, Laura
Blondin, Stéphane
Bogdanović, Tamara
Boissier, Samuel
Bonetti, Matteo
Bonoli, Silvia
Bortolas, Elisa
Breivik, Katie
Capelo, Pedro R.
Caramete, Laurentiu
Catorini, Federico
Charisi, Maria
Chaty, Sylvain
Chen, Xian
Chruślińska, Martyna
Chua, Alvin J. K.
Church, Ross
Colpi, Monica
D'Orazio, Daniela
Danielski, Camilla
Davies, Melvyn B.
Dayal, Pratika
De Rosa, Alessandra
Derdzinski, Andrea
Destounis, Kyriakos
Dotti, Massimo
Duţan, Ioana
Dvorkin, Irina
Fabj, Gaia
Foglizzo, Thierry
Ford, Saavik
Fouvry, Jean-Baptiste
Fragkos, Tassos
Fryer, Chris
Gaspari, Massimo
Gerosa, Davide
Graziani, Luca
Groot, Paul J.
Habouzit, Melanie
Haggard, Daryl
Haiman, Zoltan
Han, Wen-Biao
Istrate, Alina
Johansson, Peter H.
Khan, Fazeel Mahmood
Kimpson, Tomas
Kokkotas, Kostas
Kong, Albert
Korol, Valeriya
Kremer, Kyle
Kupfer, Thomas
Lamberts, Astrid
Larson, Shane
Lau, Mike
Liu, Dongliang
Lloyd-Ronning, Nicole
Lodato, Giuseppe
Lupi, Alessandro
Ma, Chung-Pei
Maccarone, Tomas
Mandel, Ilya
Mangiagli, Alberto
Mapelli, Michela
Mathis, Stefan
Mayer, Lucio
McGee, Sean
McKernan, Berry
Miller, M. Coleman
Mota, David F.
Mumpower, Matthew
Nasim, Syeda S.
Nelemans, Gijs
Noble, Scott
Pacucci, Fabio
Panessa, Francesca
Paschalidis, Vasileios
Pfister, Hugo
Porquet, Delphine
Quenby, John
Röpke, Fritz
Regan, John
Rosswog, Stephan
Ruiter, Ashley
Ruiz, Milton
Runnoe, Jessie
Schneider, Rafaella
Schnittman, Jeremy
Secunda, Amy
Sesana, Alberto
Seto, Naoki
Shao, Lijing
Shapiro, Stuart
Sopuerta, Carlos
Stone, Nick
Suvorov, Arthur
Tamanini, Nicola
Tamfal, Tomas
Tauris, Thomas
Temmink, Karel
Tomsick, John
Toonen, Silvia
Torres-Orjuela, Alejandro
Toscani, Martina
Tsokaros, Antonios
Unal, Caner
Vázquez-Aceves, Verónica
Valiante, Rosa
van Putten, Maurice
van Roestel, Jan
Vignali, Christian
Volonteri, Marta
Wu, Kinwah
Younsi, Ziri
Yu, Shenghua
Zane, Silvia
Zwick, Lorenz
Antonini, Fabio
Baibhav, Vishal
Barausse, Enrico
Rivera, Alexander Bonilla
Branchesi, Marica
Branduardi-Raymont, Graziella
Burdge, Kevin
Chakraborty, Srija
Cuadra, Jorge
Dage, Kristen
Davis, Benjamin
de Mink, Selma E.
Decarli, Roberto
Doneva, Daniela
Escoffier, Stephanie
Gandhi, Poshak
Haardt, Francesco
Lousto, Carlos O.
Nissanke, Samaya
Nordhaus, Jason
O'Shaughnessy, Richard
Zwart, Simon Portegies
Pound, Adam
Schussler, Fabian
Sergijenko, Olga
Spallicci, Alessandro
Vernieri, Daniele
Vigna-Gómez, Alejandro
Publication Year :
2022

Abstract

Laser Interferometer Space Antenna (LISA) will be a transformative experiment for gravitational wave astronomy as it will offer unique opportunities to address many key astrophysical questions in a completely novel way. The synergy with ground-based and other space-based instruments in the electromagnetic domain, by enabling multi-messenger observations, will add further to the discovery potential of LISA. The next decade is crucial to prepare the astrophysical community for LISA's first observations. This review outlines the extensive landscape of astrophysical theory, numerical simulations, and astronomical observations that are instrumental for modeling and interpreting the upcoming LISA datastream. To this aim, the current knowledge in three main source classes for LISA is reviewed: ultra-compact stellar-mass binaries, massive black hole binaries, and extreme or intermediate mass ratio inspirals. The relevant astrophysical processes and the established modeling techniques are summarized. Likewise, open issues and gaps in our understanding of these sources are highlighted, along with an indication of how LISA could help make progress in the different areas. New research avenues that LISA itself, or its joint exploitation with studies in the electromagnetic domain, will enable, are also illustrated. Improvements in modeling and analysis approaches, such as the combination of numerical simulations and modern data science techniques, are discussed. This review is intended to be a starting point for using LISA as a new discovery tool for understanding our Universe.<br />Comment: submitted to Living Reviews In Relativity

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1312097949
Document Type :
Electronic Resource

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