Bootstrapped Newtonian gravity is a non-linear version of Newton's law which can be lifted to a fully geometric theory of gravity starting from a modified potential. Here, we study geodesics in the bootstrapped Newtonian effective metric in vacuum and obtain bounds on a free parameter from Solar System data and S-star orbits near our Galaxy centre. These bounds make vacuum bootstrapped Newtonian gravity experimentally indistinguishable from General Relativity.Comment: REVTeX 4, 11 pages, 5 figures, 5 tables. Version to appear in PR
Modified gravity theories such as Einstein scalar Gauss Bonnet (EsGB) contain higher derivative term...
We derive a theory-independent version of the momentum constraint equation for use in cosmology, as ...
We consider compact objects in a classical and non-relativistic generalisation of Newtonian gravity,...
Bootstrapped Newtonian gravity is a nonlinear version of Newton’s law, which can be lifted to a full...
We determine the complete space-time metric from the bootstrapped Newtonian potential generated by a...
Bootstrapped Newtonian gravity was developed with the purpose of estimating the impact of quantum ph...
We study the bootstrapped Newtonian potential generated by a localised source in one and two spatial...
We have explored a completely new and alternative way to restrict the parameter space of Horndeski t...
We study equilibrium configurations of a homogenous ball of matter in a bootstrapped description of ...
We investigate emergent gravity extending the paradigm of the AdS/CFT correspondence. The emergent g...
One of the main features of General Relativity is that, under very general assumptions and for suff...
We show that the bootstrapped Newtonian potential generated by a uniform and isotropic source does n...
We discuss a teleparallel version of Newton--Cartan gravity. This theory arises as a formal large-sp...
We address the possibility of taking advantage of high accuracy gravitational space experiments in t...
We investigate the slow-motion and weak-field approximation of the general ghost-free parity-violati...
Modified gravity theories such as Einstein scalar Gauss Bonnet (EsGB) contain higher derivative term...
We derive a theory-independent version of the momentum constraint equation for use in cosmology, as ...
We consider compact objects in a classical and non-relativistic generalisation of Newtonian gravity,...
Bootstrapped Newtonian gravity is a nonlinear version of Newton’s law, which can be lifted to a full...
We determine the complete space-time metric from the bootstrapped Newtonian potential generated by a...
Bootstrapped Newtonian gravity was developed with the purpose of estimating the impact of quantum ph...
We study the bootstrapped Newtonian potential generated by a localised source in one and two spatial...
We have explored a completely new and alternative way to restrict the parameter space of Horndeski t...
We study equilibrium configurations of a homogenous ball of matter in a bootstrapped description of ...
We investigate emergent gravity extending the paradigm of the AdS/CFT correspondence. The emergent g...
One of the main features of General Relativity is that, under very general assumptions and for suff...
We show that the bootstrapped Newtonian potential generated by a uniform and isotropic source does n...
We discuss a teleparallel version of Newton--Cartan gravity. This theory arises as a formal large-sp...
We address the possibility of taking advantage of high accuracy gravitational space experiments in t...
We investigate the slow-motion and weak-field approximation of the general ghost-free parity-violati...
Modified gravity theories such as Einstein scalar Gauss Bonnet (EsGB) contain higher derivative term...
We derive a theory-independent version of the momentum constraint equation for use in cosmology, as ...
We consider compact objects in a classical and non-relativistic generalisation of Newtonian gravity,...