Canonical bifurcation in higher derivative, higher spin, theories

Creators: Deser, S.; Ertl, S.; Grumiller, D.

Abstract

We present a non-perturbative canonical analysis of the D = 3 quadratic-curvature, yet ghost-free, model to exemplify a novel, 'constraint bifurcation', effect. Consequences include a jump in excitation count: a linearized level gauge variable is promoted to a dynamical one in the full theory. We illustrate these results with their concrete perturbative counterparts. They are of course mutually consistent, as are perturbative findings in related models. A geometrical interpretation in terms of propagating torsion reveals the model's relation to an (improved) version of Einstein–Weyl gravity at the linearized level. Finally, we list some necessary conditions for triggering the bifurcation phenomenon in general interacting gauge systems.

Additional Information

© 2013 Institute of Physics Publishing Ltd. Received 23 August 2012. Published 14 May 2013. This article is part of a special issue of Journal of Physics A: Mathematical and Theoretical devoted to 'Higher spin theories and holography'. We thank H Afshar, J Franklin, O Hohm, R Jackiw and P Townsend for useful discussions. DG thanks Caltech and KITP for hospitality during the KITP program 'Bits, Branes, Black Holes' while part of this work was begun. SD was supported in part by NSF PHY-1064302 and DOE DE-FG02-16492ER40701 grants. SE and DG are supported by the START project Y435-N16 of the Austrian Science Fund (FWF) and by the FWF project P21927-N16. This research was supported in part by the National Science Foundation under grant no. NSF PHY11-25915.

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