Litcius/Paper detail

Fierz–Pauli theory reloaded: from a theory of a symmetric tensor field to linearized massive gravity

Giulio Gambuti, Nicola Maggiore

2021The European Physical Journal C22 citationsDOIOpen Access PDF

Abstract

Abstract Modifying gravity at large distances by means of a massive graviton may explain the observed acceleration of the Universe without Dark Energy. The standard paradigm for Massive Gravity is the Fierz–Pauli theory, which, nonetheless, displays well known flaws in its massless limit. The most serious one is represented by the vDVZ discontinuity, which consists in a disagreement between the massless limit of the Fierz–Pauli theory and General Relativity. Our approach is based on a field-theoretical treatment of Massive Gravity: General Relativity, in the weak field approximation, is treated as a gauge theory of a symmetric rank-2 tensor field. This leads us to propose an alternative theory of linearized Massive Gravity, describing five degrees of freedom of the graviton, with a good massless limit, without vDVZ discontinuity, and depending on one mass parameter only, in agreement with the Fierz–Pauli theory.

Topics & Concepts

Massive gravityMassless particleGravitonPhysicsTensor (intrinsic definition)GravitationClassical mechanicsTheoretical physicsGauge theoryTensor fieldSymmetric tensorMathematical physicsLimit (mathematics)f(R) gravityField (mathematics)Parameterized post-Newtonian formalismScalar–tensor theoryGravitational fieldField theory (psychology)Degrees of freedom (physics and chemistry)AccelerationQuantum gravityNegative massGauge (firearms)Gravitational waveUniverseCosmologyCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical Physics