Minimal $\cal N=4$ topologically massive supergravity
Abstract
Using the superconformal framework, we construct a new off-shell model for topologically massive supergravity which is minimal in the sense that it makes use of a single compensating vector multiplet and involves no free parameter. As such, it provides a counterexample to the common lore that two compensating multiplets are required within the conformal approach to supergravity with eight supercharges in diverse dimensions. This theory is an off-shell supersymmetric extension of chiral gravity. All of its solutions correspond to non-conformally flat superspaces. Its maximally supersymmetric solutions include the so-called critical (4,0) anti-de Sitter superspace introduced in arXiv:1205.4622, and well as warped critical (4,0) anti-de Sitter superspaces. We also propose a dual formulation for the theory in which the vector multiplet is replaced with an off-shell hypermultiplet. Upon elimination of the auxiliary fields belonging to the hypermultiplet and imposing certain gauge conditions, the dual action reduces to the one introduced in arXiv:1605.00103.
Cite
@article{arxiv.1610.09895,
title = {Minimal $\cal N=4$ topologically massive supergravity},
author = {Sergei M. Kuzenko and Joseph Novak and Ivo Sachs},
journal= {arXiv preprint arXiv:1610.09895},
year = {2017}
}
Comments
38 pages, typos corrected and comments added, published version