Newton's constant in f(R,R_{μν}R^{μν},\Box R) theories of gravity and constraints from BBN

Nesseris, Savvas
Mazumdar, Anupam

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Publication date

May 2009

DOI

10.1103/PhysRevD.79.104006

Publisher

American Physical Society (APS)

Abstract

We consider corrections to the Einstein-Hilbert action which contain both higher order and nonlocal terms. We derive an effective Newtonian gravitational constant applicable at the weak field limit and use the primordial nucleosynthesis (BBN) bound and the local gravity constraints on $G_{eff}$ in order to test the viability of several cases of our general Lagrangian. We will also provide a BBN constrain on the $\Box R$ gravitational correction

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Newton's constant in f(R,R_{μν}R^{μν},\Box R) theories of gravity and constraints from BBN

Abstract

Extracted data

Newton's constant in f(R,R_{μν}R^{μν},\Box R) theories of gravity and constraints from BBN

Abstract

Extracted data

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