Numerical Relativity: A review

Alcubierre M; Alcubierre M; Alcubierre M; Alcubierre M; Alcubierre M; Anninos P; Armitage P J; Arnold D; Ashtekar A; Baker J; Baker J; Balakrishna J; Balakrishna J; Balakrishna J; Balay S; Bardeen J; Bardeen J; Bartnik R; Bartnik R A; Baumgarte T W; Belinski V; Belinski V; Berger B; Bishop N; Bishop N; Bishop N T; Bishop N T; Bishop N T; Bonazzola S; Boyd J; Brandt S; Brandt S; Brewin L; Bruhat Y; Calabrese G; Campanelli M; Canuto C; Celotti A; Choptuik M; Choquet-Bruhat Y; Christodoulou D; Cook G; Courant R; d'Inverno R A; Dain S; Diener P; Diener P; Duez M D; Duez M D; Eardley D M; Eulderink F; Ferrari V; Font J A; Frauendiener J; Frauendiener J; Friedrich H; Friedrich H; Garfinkle D; Garfinkle D; Garfinkle D; Gentle A; Gentle A P; Gentle A P; Geroch R; Geroch R; Gnedin M; Godunov S K; Gomez R; Gomez R; Gomez R; Gourgoulhon E; Gundlach C; Gundlach C; Gundlach C; Gustaffson B; Gustaffson B; Hamade R; Hawking S W; Hawley J; Honda E; Horowitz G T; Huebner P; Huebner P; Huebner P; Huebner P; Huebner P; Huq M F; Husain V; Husain V; Iriondo M S; John F; Kelly B; Kichenassamy S; Kidder L E; Kokkotas K D; Kokkotas K D; Komatsu H; Kreiss H; Landry W; Lehner L; Lehner L; Lichnerowicz A; Luis Lehner; Madden R; Madden R; Marsa R; Marti J M; Matzner R; Miller M; Miller M; Miller M; Misner C; Neilsen D W; Norman M; Oliger J; Papadopoulos P; Piran T; Press W; Pretorius F; Quarteroni A; Rasio F A; Rees M; Rees M; Rendall A; Reula O A; Ruffert M; Ruoff J; Sandford M C W; Schmidt B; Schmidt B; Schutz B F; Shapiro S; Shapiro S; Shapiro S L; Shapiro S L; Shibata M; Shibata M; Shinkai H; Shinkai H; Siebel F; Smarr L; Stergioulas N; Stergioulas N; Stewart J M; Teukolsky S; Thomas J; Thomas J; Thornburg J; Thornburg J; Thorne K; Thorne K; Tiglio M; Tod K P; Tsubomo K; Unruh W; Wald R; Wald R; Wilson J; Wilson J; Winicour J; York J; Zwart S

research

Numerical Relativity: A review

Authors: Alcubierre M
Alcubierre M
Alcubierre M
Alcubierre M
Alcubierre M
Anninos P
Armitage P J
Arnold D
Ashtekar A
Baker J
Baker J
Balakrishna J
Balakrishna J
Balakrishna J
Balay S
Bardeen J
Bardeen J
Bartnik R
Bartnik R A
Baumgarte T W
Belinski V
Belinski V
Berger B
Bishop N
Bishop N
Bishop N T
Bishop N T
Bishop N T
Bonazzola S
Boyd J
Brandt S
Brandt S
Brewin L
Bruhat Y
Calabrese G
Campanelli M
Canuto C
Celotti A
Choptuik M
Choquet-Bruhat Y
Christodoulou D
Cook G
Courant R
d'Inverno R A
Dain S
Diener P
Diener P
Duez M D
Duez M D
Eardley D M
Eulderink F
Ferrari V
Font J A
Frauendiener J
Frauendiener J
Friedrich H
Friedrich H
Garfinkle D
Garfinkle D
Garfinkle D
Gentle A
Gentle A P
Gentle A P
Geroch R
Geroch R
Gnedin M
Godunov S K
Gomez R
Gomez R
Gomez R
Gourgoulhon E
Gundlach C
Gundlach C
Gundlach C
Gustaffson B
Gustaffson B
Hamade R
Hawking S W
Hawley J
Honda E
Horowitz G T
Huebner P
Huebner P
Huebner P
Huebner P
Huebner P
Huq M F
Husain V
Husain V
Iriondo M S
John F
Kelly B
Kichenassamy S
Kidder L E
Kokkotas K D
Kokkotas K D
Komatsu H
Kreiss H
Landry W
Lehner L
Lehner L
Lichnerowicz A
Luis Lehner
Madden R
Madden R
Marsa R
Marti J M
Matzner R
Miller M
Miller M
Miller M
Misner C
Neilsen D W
Norman M
Oliger J
Papadopoulos P
Piran T
Press W
Pretorius F
Quarteroni A
Rasio F A
Rees M
Rees M
Rendall A
Reula O A
Ruffert M
Ruoff J
Sandford M C W
Schmidt B
Schmidt B
Schutz B F
Shapiro S
Shapiro S
Shapiro S L
Shapiro S L
Shibata M
Shibata M
Shinkai H
Shinkai H
Siebel F
Smarr L
Stergioulas N
Stergioulas N
Stewart J M
Teukolsky S
Thomas J
Thomas J
Thornburg J
Thornburg J
Thorne K
Thorne K
Tiglio M
Tod K P
Tsubomo K
Unruh W
Wald R
Wald R
Wilson J
Wilson J
Winicour J
York J
Zwart S
Publication date: 1 January 2001
Publisher: 'IOP Publishing'
Doi

Abstract

Computer simulations are enabling researchers to investigate systems which are extremely difficult to handle analytically. In the particular case of General Relativity, numerical models have proved extremely valuable for investigations of strong field scenarios and been crucial to reveal unexpected phenomena. Considerable efforts are being spent to simulate astrophysically relevant simulations, understand different aspects of the theory and even provide insights in the search for a quantum theory of gravity. In the present article I review the present status of the field of Numerical Relativity, describe the techniques most commonly used and discuss open problems and (some) future prospects.Comment: 2 References added; 1 corrected. 67 pages. To appear in Classical and Quantum Gravity. (uses iopart.cls

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