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Issues of Lorentz-invariance in <i>f</i> ( <i>T</i> ) gravity and calculations for spherically symmetric solutions

Alexey Golovnev

2021Classical and Quantum Gravity41 citationsDOIOpen Access PDF

Abstract

Abstract The f ( T ) gravity is nowadays being widely used for cosmological model building, as well as for constructing spherically symmetric solutions. In its classical pure tetrad formulation it violates the local Lorentz symmetry in the space of tetrads. By using an appropriate spin connection it can be brought to a formally Lorentz invariant shape. However, despite some mathematical elegance obtained and new options of looking for non-standard couplings to matter probably made possible, it is fully equivalent in itself to the initial formulation. It seems that this fact, that the covariantisation does not in principle change anything, is not understood well by the community. Therefore we give a pedagogical introduction to these topics. And, on top of that, we show that obtaining the explicit equations for spherically symmetric solutions in f ( T ) gravity is not very difficult computationally and can be easily done even without any computer at hand.

Topics & Concepts

PhysicsLorentz covarianceTheoretical physicsLorentz transformationTetradSymmetry (geometry)Invariant (physics)GravitationClassical mechanicsSpin connectionConnection (principal bundle)Mathematical physicsGeneral relativitySpacetimeQuantum mechanicsGeometryMathematicsCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity Theories