Newtonian-like gravity with variable G

Fabris, J. C.; Gomes, Tales; Toniato, Júnior D.; Velten, Hermano

doi:10.1140/epjp/s13360-021-01146-z

Cited by 4 publications

(8 citation statements)

References 37 publications

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“…As already pointed out in Ref. [10], in a vacuum, Equations ( 5) and ( 6) are decoupled. Thus, the fields ψ and σ have independent dynamics, both satisfying Laplace's equations.…”

Section: Gravitational Field Within Mass Distributionsmentioning

confidence: 60%

“…In Ref. [10], a Lagrangian for a theory with varying G has been proposed and is reviewed in this Section. The Lagrangian of this new approach is given by…”

Section: Newtonian Theory With Variable Gmentioning

confidence: 99%

“…Let us start by reviewing the simple realization of a static sphere of radius R with constant density ρ 0 . As shown in [10], the gravitational potential in this case assumes the form…”

Section: Constant Density Spherementioning

confidence: 99%

“…In a recent paper [10], a new Newtonian theory with varying gravitational coupling has been proposed. The gravitational coupling, now given by a function of time and position, is dynamically determined together with the gravitational potential from a new gravitational Lagrangian.…”

Section: Introductionmentioning

confidence: 99%

“…In this paper, we focus on the stellar structure of non-relativistic stars. This is an important analysis in the context of the theory proposed in [10] since it has been shown that the main difference from the standard Newtonian gravity should manifest within matter distributions.…”

Section: Introductionmentioning

confidence: 99%

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Stellar Structure in a Newtonian Theory with Variable G

Fabris

Ottoni

Toniato

et al. 2021

Physics

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A Newtonian-like theory inspired by the Brans–Dicke gravitational Lagrangian has been recently proposed by us. For static configurations, the gravitational coupling acquires an intrinsic spatial dependence within the matter distribution. Therefore, the interior of astrophysical configurations may provide a testable environment for this approach as long as no screening mechanism is evoked. In this work, we focus on the stellar hydrostatic equilibrium structure in such a varying Newtonian gravitational coupling G scenario. A modified Lane–Emden equation is presented and its solutions for various values of the polytropic index are discussed. The role played by the theory parameter ω, the analogue of the Brans–Dicke parameter, in the physical properties of stars is discussed.

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“…As already pointed out in Ref. [10], in a vacuum, Equations ( 5) and ( 6) are decoupled. Thus, the fields ψ and σ have independent dynamics, both satisfying Laplace's equations.…”

Section: Gravitational Field Within Mass Distributionsmentioning

confidence: 60%

“…In Ref. [10], a Lagrangian for a theory with varying G has been proposed and is reviewed in this Section. The Lagrangian of this new approach is given by…”

Section: Newtonian Theory With Variable Gmentioning

confidence: 99%

“…Let us start by reviewing the simple realization of a static sphere of radius R with constant density ρ 0 . As shown in [10], the gravitational potential in this case assumes the form…”

Section: Constant Density Spherementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Stellar Structure in a Newtonian Theory with Variable G

Fabris

Ottoni

Toniato

et al. 2021

Physics

Self Cite

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Can varying the gravitational constant alleviate the tensions?

Sakr¹,

Sapone

2022

J. Cosmol. Astropart. Phys.

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Constraints on the cosmological concordance model parameters from observables at different redshifts are usually obtained using the locally measured value of the gravitational constant GN . Here we relax this assumption, by considering G as a free parameter, either constant over the redshift range or dynamical but limited to differ from fiducial value only above a certain redshift. Using CMB data and distance measurements from galaxy clustering BAO feature, we constrain the cosmological parameters, along with G, through a MCMC bayesian inference method. Furthermore, we investigate whether the tensions on the matter fluctuation σ8 and Hubble H0 parameter could be alleviated by this new variable. We used different parameterisations spanning from a constant G to a dynamical G. In all the cases investigated in this work we found no mechanism that alleviates the tensions when both CMB and BAO data are used with ξg = G / GN constrained to 1.0±0.04 (resp. ±0.01) in the constant (resp. dynamical) case. Finally, we studied the cosmological consequences of allowing a running of the spectral index, since the later is sensitive to a change in G. For the two parameterisations adopted, we found no significant changes to the previous conclusions.

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