Nonlinear, noniterative treatment of EFT-motivated gravity

We study a higher derivative extension to General Relativity and present a fully nonlinear/nonperturbative treatment to construct initial data and study its dynamical behavior in spherical symmetry when coupled to a massless scalar field. For initial data, we compare the obtained solutions with thos...

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Veröffentlicht in:	Physical review. D 2020-10, Vol.102 (8), Article 084008
Hauptverfasser:	Cayuso, Ramiro, Lehner, Luis
Format:	Artikel
Sprache:	eng
Schlagworte:	Iterative methods Mathematical analysis Relativity Scalars Theory of relativity
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creator	Cayuso, Ramiro Lehner, Luis
description	We study a higher derivative extension to General Relativity and present a fully nonlinear/nonperturbative treatment to construct initial data and study its dynamical behavior in spherical symmetry when coupled to a massless scalar field. For initial data, we compare the obtained solutions with those from alternative treatments that rely on a perturbative (or iterative) approach. For the future evolution of such data, we implement a recently introduced approach which addresses mathematical pathologies brought in by the higher derivatives. Our solutions demonstrate the presence of unexpected phenomena-when seen from the lens of General Relativity, as well as departures from General Relativity in the quasinormal mode behavior of the scalar field scattering off the black hole.
doi_str_mv	10.1103/PhysRevD.102.084008
format	Article
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title	Nonlinear, noniterative treatment of EFT-motivated gravity
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