We compute families of spherically symmetric neutron-star models in two-derivative scalar-tensor theories of gravity with a massive scalar field. The numerical approach we present allows us to compute the resulting spacetimes out to infinite radius using a relaxation algorithm on a compactified grid. We discuss the structure of the weakly and strongly scalarized branches of neutron-star models thus obtained and their dependence on the linear and quadratic coupling parameters $\alpha_0$, $\beta_0$ between the scalar and tensor sectors of the theory, as well as the scalar mass $\mu$. For highly negative values of $\beta_0$, we encounter configurations resembling a "gravitational atom", consisting of a highly compact baryon star surrounded by ...
In this work, we investigate neutron stars (NS) in $$f(\mathtt {R,L_m})$$ theory of gravity for the ...
Neutron star models are studied in the context of scalar-tensor theories of gravity in the presence ...
Scalar-tensor theories of gravity are natural phenomenological alternatives to General Relativity, w...
We compute families of spherically symmetric neutron-star models in two-derivative scalar-tensor the...
We present a framework to study generic neutron-star binaries in scalar-tensor theories of gravity. ...
It was recently shown, that in a class of tensor-multiscalar theories of gravity with a nontrivial t...
We carry out numerical-relativity simulations of coalescing binary neutron stars in a scalar-tensor ...
Scalar-Tensor-Vector Gravity (STVG), also referred as Modified Gravity (MOG), is an alternative theo...
Among the possible extensions of general relativity that have been put forward to address some long-...
International audienceCertain scalar-tensor theories of gravity that generalize Jordan-Fierz-Brans-D...
Bekenstein's tensor-vector-scalar (TeVeS) theory has had considerable success in explaining various ...
Abstract In analogy with spontaneous magnetization of ferromagnets below the Curie temperature, a ne...
International audienceWe study neutron star configurations in a simple shift-symmetric subfamily of ...
In this work, we investigate neutron stars (NS) in $$f(\mathtt {R,L_m})$$ theory of gravity for the ...
Neutron star models are studied in the context of scalar-tensor theories of gravity in the presence ...
Scalar-tensor theories of gravity are natural phenomenological alternatives to General Relativity, w...
We compute families of spherically symmetric neutron-star models in two-derivative scalar-tensor the...
We present a framework to study generic neutron-star binaries in scalar-tensor theories of gravity. ...
It was recently shown, that in a class of tensor-multiscalar theories of gravity with a nontrivial t...
We carry out numerical-relativity simulations of coalescing binary neutron stars in a scalar-tensor ...
Scalar-Tensor-Vector Gravity (STVG), also referred as Modified Gravity (MOG), is an alternative theo...
Among the possible extensions of general relativity that have been put forward to address some long-...
International audienceCertain scalar-tensor theories of gravity that generalize Jordan-Fierz-Brans-D...
Bekenstein's tensor-vector-scalar (TeVeS) theory has had considerable success in explaining various ...
Abstract In analogy with spontaneous magnetization of ferromagnets below the Curie temperature, a ne...
International audienceWe study neutron star configurations in a simple shift-symmetric subfamily of ...
In this work, we investigate neutron stars (NS) in $$f(\mathtt {R,L_m})$$ theory of gravity for the ...
Neutron star models are studied in the context of scalar-tensor theories of gravity in the presence ...
Scalar-tensor theories of gravity are natural phenomenological alternatives to General Relativity, w...