Dark matter as a Weyl geometric effect

TL;DR

This paper explores whether dark matter effects in galaxies can be explained by Weyl geometric gravity, deriving solutions and comparing with galactic rotation curves, proposing a geometric alternative to dark matter.

Contribution

The study formulates a conformally invariant Weyl geometric gravity model and demonstrates its potential to explain galactic rotation curves without dark matter.

Findings

Exact static, spherically symmetric solutions obtained.

Weyl geometric effects can mimic dark matter mass profiles.

Model fits observed galactic rotation curves with parameter tuning.

Abstract

We investigate the possibility that the observed behavior of test particles outside galaxies, which is usually explained by assuming the existence of dark matter, is the result of the dynamical evolution of particles in a Weyl type geometry, and its associated conformally invariant Weyl geometric quadratic gravity. As a first step in our investigations we write down the simplest possible conformally invariant gravitational action, constructed in Weyl geometry, and containing the Weyl scalar, and the strength of the Weyl vector only. By introducing an auxiliary scalar field, the theoretical model can be reformulated in the Riemann geometry as scalar-vector-tensor theory, containing a scalar field, and the Weyl vector, respectively. The field equations of the theory are derived in the metric formalism, in the absence of matter. A specific static, spherically symmetric model, in which the Weyl vector has only a radial component, is considered. In this case, an exact analytic solution of the gravitational field equations can be obtained. The behavior of the galactic rotation curves is also considered in detail, and it is shown that an effective geometric mass term, with an associated density profile, can also be introduced. Three particular cases, corresponding to some specific functional forms of the Weyl vector, are also investigated. A comparison of the model with a selected sample of galactic rotation curves is also performed when an explicit breaking of conformal invariance is introduced, which allows the fix of the numerical values of the free parameters of the model. Our results show that Weyl geometric models can be considered as a viable theoretical alternative to the dark matter paradigm.