A new spin-2 self-dual model in D=2+1

Abstract

There are three self-dual models of massive particles of helicity +2 (or -2) in D=2+1. Each model is of first, second, and third-order in derivatives. Here we derive a new self-dual model of fourth-order, SD(4), which follows from the third-order model (linearized topologically massive gravity) via Noether embedment of the linearized Weyl symmetry. In fact, each self-dual model can be obtained from the previous one SD(i) SD(i+1), i=1,2,3 by the Noether embedment of an appropriate gauge symmetry, culminating in SD(4). The new model may be identified with the linearized version of HDTMG = εμ μγε (_εγ + (2/3)δγ εδ) /8 m + -g(Rμ Rμ - 3 R2/8) /2 m2 . We also construct a master action relating the third-order self-dual model to SD(4) by means of a mixing term with no particle content which assures spectrum equivalence of SD(4) to other lower-order self-dual models despite its pure higher derivative nature and the absence of the Einstein-Hilbert action. The relevant degrees of freedom of SD(4) are encoded in a rank-two tensor which is symmetric, traceless and transverse due to trivial (non-dynamic) identities, contrary to other spin-2 self-dual models. We also show that the Noether embedment of the Fierz-Pauli theory leads to the new massive gravity of Bergshoeff, Hohm and Townsend.