Spontaneously broken 3d Hietarinta/Maxwell Chern–Simons theory and minimal massive gravity
Dmitry Chernyavsky, Nihat Sadik Deger, Dmitri Sorokin
Abstract
Abstract We show that minimal massive 3 d gravity (MMG) of (Bergshoeff et al. in Class Quantum Grav 31:145008, 2014), as well as the topological massive gravity, are particular cases of a more general ‘minimal massive gravity’ theory (with a single massive propagating mode) arising upon spontaneous breaking of a local symmetry in a Chern–Simons gravity based on a Hietarinta or Maxwell algebra. Similar to the MMG case, the requirements that the propagating massive mode is neither tachyon nor ghost and that the central charges of an asymptotic algebra associated with a boundary CFT are positive, impose restrictions on the range of the parameters of the theory.
Topics & Concepts
PhysicsMassive gravityChern–Simons theoryTachyonSymmetry (geometry)Mathematical physicsTheoretical physicsBoundary (topology)Quantum gravityGravitationClassical mechanicsGeometryQuantum mechanicsMathematicsMathematical analysisGauge theoryGravitonQuantumBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories