Binary black hole initial data for numerical general relativity based on
  post-Newtonian data

A. Buonanno; B. Brügmann; B. Brügmann; B. Schutz; Bernd Brügmann; G. Schäfer; G. Schäfer; G. Schäfer; G.B. Cook; G.B. Cook; G.B. Cook; J. Baker; J. Baker; J. Baker; J. Baker; J. Baker; J. Bowen; J.W. York; K. Alvi; L. Blanchet; M. Alcubierre; M.D. Duez; Manuela Campanelli; P. Grandclement; P. Jaranowski; P. Marronetti; P.R. Brady; Peter Diener; S. Brandt; S. Brandt; S. Dain; S. Dain; T. Damour; T. Damour; T. Damour; T. Ohta; Wolfgang Tichy; Éanna É. Flanagan

research

Binary black hole initial data for numerical general relativity based on post-Newtonian data

Authors: A. Buonanno
B. Brügmann
B. Brügmann
B. Schutz
Bernd Brügmann
G. Schäfer
G. Schäfer
G. Schäfer
G.B. Cook
G.B. Cook
G.B. Cook
J. Baker
J. Baker
J. Baker
J. Baker
J. Baker
J. Bowen
J.W. York
K. Alvi
L. Blanchet
M. Alcubierre
M.D. Duez
Manuela Campanelli
P. Grandclement
P. Jaranowski
P. Marronetti
P.R. Brady
Peter Diener
S. Brandt
S. Brandt
S. Dain
S. Dain
T. Damour
T. Damour
T. Damour
T. Ohta
Wolfgang Tichy
Éanna É. Flanagan
Publication date: 2 July 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

With the goal of taking a step toward the construction of astrophysically realistic initial data for numerical simulations of black holes, we for the first time derive a family of fully general relativistic initial data based on post-2-Newtonian expansions of the 3-metric and extrinsic curvature without spin. It is expected that such initial data provide a direct connection with the early inspiral phase of the binary system. We discuss a straightforward numerical implementation, which is based on a generalized puncture method. Furthermore, we suggest a method to address some of the inherent ambiguity in mapping post-Newtonian data onto a solution of the general relativistic constraints.Comment: 13 pages, 8 figures, RevTex