Asymptotic flatness and nonflat solutions in the critical 2+1 Hoava theory
Abstract
The Hoava theory in 2+1 dimensions can be formulated at a critical point in the space of coupling constants where it has no local degrees of freedom. This suggests that this critical case could share many features with 2+1 general relativity, in particular its large-distance effective action that is of second order in derivatives. To deepen on this relationship, we study the asymptotically flat solutions of the effective action. We take the general definition of asymptotic flatness from 2+1 general relativity, where an asymptotically flat region with a nonfixed conical angle is approached. We show that a class of regular asymptotically flat solutions are totally flat. The class is characterized by having nonnegative energy (when the coupling constant of the Ricci scalar is positive). We present a detailed canonical analysis on the effective action showing that the dynamics of the theory forbids local degrees of freedom. Another similarity with 2+1 general relativity is the absence of a Newtonian force. In contrast to these results, we find evidence against the similarity with 2+1 general relativity: we find an exact nonflat solution of the same effective theory. This solution is out of the set of asymptotically flat solutions.
Más información
Título según WOS: | Asymptotic flatness and nonflat solutions in the critical 2+1 Hoava theory |
Título de la Revista: | GENERAL RELATIVITY AND GRAVITATION |
Volumen: | 53 |
Número: | 2 |
Editorial: | SPRINGER/PLENUM PUBLISHERS |
Fecha de publicación: | 2021 |
DOI: |
10.1007/S10714-021-02793-4 |
Notas: | ISI |