Note on massless and partially massless spin-2 particles in a curved background via a nonsymmetric tensor

In the last few years we have seen an increase interest on gravitational waves due to recent and striking experimental results confirming Einstein's general relativity once more. From the field theory point of view, gravity describes the propagation of self-interacting massless spin-2 particles...

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Bibliographic Details
Published in:arXiv.org 2019-01
Main Authors: tes, H G M, Dalmazi, D
Format: Article
Language:English
Subjects:
Field theory
Gravitational waves
Linearization
Particle spin
Relativity
Tensors
Online Access:Get full text
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Summary:In the last few years we have seen an increase interest on gravitational waves due to recent and striking experimental results confirming Einstein's general relativity once more. From the field theory point of view, gravity describes the propagation of self-interacting massless spin-2 particles. They can be identified with metric perturbations about a given background metric. Since the metric is a symmetric tensor, the massless spin-2 particles present in the Einstein-Hilbert (massless Fierz-Pauli) theory are naturally described by a symmetric rank-2 tensor. However, this is not the only possible consistent massless spin-2 theory at linearized level. In particular, if we add a mass term, a new one parameter \((a_1)\) family of models \({\cal L}(a_1)\) shows up. They consistently describe massive spin-2 particles about Einstein spaces in terms of a non-symmetric rank-2 tensor. Here we investigate the massless version of \({\cal L}(a_1)\) in a curved background. In the case \(a_1=-1/12\) we show that the massless spin-2 particles consistently propagate, at linearized level, in maximally symmetric spaces. A similar result is obtained otherwise \((a_1 \ne -1/12)\) where we have a non-symmetric scalar-tensor massless model. The case of partially massless non-symmetric models is also investigated.
ISSN:2331-8422
DOI:10.48550/arxiv.1901.01068