We complete the analytical determination, at the 4th post-Newtonian approximation, of the main radial potential describing the gravitational interaction of two bodies within the effective one-body formalism. The (nonlogarithmic) coefficient a5(?) measuring this 4th post-Newtonian interaction potential is found to be linear in the symmetric mass ratio ?. Its ?-independent part a5(0) is obtained by an analytical gravitational self-force calculation that unambiguously resolves the formal infrared divergencies which currently impede its direct post-Newtonian calculation. Its ?-linear part a5(?)-a5(0) is deduced from recent results of Jaranowski and Schäfer, and is found to be significantly negative.
Analytic determination of the two-body gravitational interaction potential at the 4th
Bini D;
2013
Abstract
We complete the analytical determination, at the 4th post-Newtonian approximation, of the main radial potential describing the gravitational interaction of two bodies within the effective one-body formalism. The (nonlogarithmic) coefficient a5(?) measuring this 4th post-Newtonian interaction potential is found to be linear in the symmetric mass ratio ?. Its ?-independent part a5(0) is obtained by an analytical gravitational self-force calculation that unambiguously resolves the formal infrared divergencies which currently impede its direct post-Newtonian calculation. Its ?-linear part a5(?)-a5(0) is deduced from recent results of Jaranowski and Schäfer, and is found to be significantly negative.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
