Litcius/Paper detail

Cosmological perturbations in modified teleparallel gravity models: boundary term extension

Sebastian Bahamonde, Viktor Gakis, Stella Kiorpelidi, Tomi Koivisto, Jackson Levi Said, Emmanuel N. Saridakis

2021The European Physical Journal C34 citationsDOIOpen Access PDF

Abstract

Abstract Teleparallel gravity offers a new avenue in which to construct gravitational models beyond general relativity. While teleparallel gravity can be framed in a way to be dynamically equivalent to general relativity, its modifications are mostly not equivalent to the traditional route to modified gravity. f ( T , B ) gravity is one such gravitational theory where the second and fourth order contributions to the field equations are decoupled. In this work, we explore the all important cosmological perturbations of this new framework of gravity. We derive the gravitational propagation equation, its vector perturbation stability conditions, and its scalar perturbations. Together with the matter perturbations, we derive the effective gravitational constant in this framework, and find an interesting branching behaviour that depends on the particular gravitational models being probed. We close with a discussion on the relation of these results with other gravitational theories.

Topics & Concepts

PhysicsGravitationGravitational fieldPerturbation (astronomy)Classical mechanicsScalar (mathematics)Extension (predicate logic)Term (time)Perturbation theory (quantum mechanics)Gravitational constantBoundary value problemBoundary (topology)General relativityField equationTheoretical physicsSpeed of gravityScalar fieldCosmological constantMathematical physicsCosmologyLinearized gravityGravitational forcef(R) gravityGravitational accelerationSpacetimeCosmological perturbation theoryFirst orderStability (learning theory)Gravitational redshiftFormalism (music)Field (mathematics)Semiclassical gravityCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research