Logo
ScienceStack
Table of Contents
Fetching ...
Sign In

On the Hamiltonian form of 3D massive gravity

Olaf Hohm, Alasdair Routh, Paul K. Townsend, Baocheng Zhang

Abstract

We present a "Chern-Simons-like" action for the "general massive gravity" model propagating two spin-2 modes with independent masses in three spacetime dimensions (3D), and we use it to find a simple Hamiltonian form of this model. The number of local degrees of freedom, determined by the dimension of the physical phase space, agrees with a linearized analysis except in some limits, in particular that yielding "new topologically massive gravity", which therefore suffers from a linearization instability.

On the Hamiltonian form of 3D massive gravity

Abstract

We present a "Chern-Simons-like" action for the "general massive gravity" model propagating two spin-2 modes with independent masses in three spacetime dimensions (3D), and we use it to find a simple Hamiltonian form of this model. The number of local degrees of freedom, determined by the dimension of the physical phase space, agrees with a linearized analysis except in some limits, in particular that yielding "new topologically massive gravity", which therefore suffers from a linearization instability.

Paper Structure

This paper contains 11 sections, 88 equations, 1 table.

Table of Contents

  1. Introduction
  2. Preliminaries
  3. Einstein-Cartan
  4. Horne-Witten
  5. Massive 3D gravity
  6. Hamiltonian preliminaries
  7. Hamiltonian formulation
  8. TMG
  9. NMG
  10. GMG
  11. Discussion