Gravitational Waves and Degrees of Freedom in Higher Derivative Gravity

We study the degrees of freedom of the metric in a general class of higher derivative gravity models, which are interesting in the context of quantum gravity as they are (super)renormalizable. First, we linearize the theory for a flat background metric in a Teyssandier gauge for an arbitrary number of spacetime dimensions D. The higher-order derivative field equations for the metric perturbation can be decomposed into tensorial and scalar field equations resembling massless and massive waves equations. For the massive tensor field in D dimensions, we demonstrate that the harmonic gauge condition is induced dynamically and only the transverse modes are excited in the presence of a matter source. For the special case of quadratic gravity in four-dimensional spacetime, we show that only the quadrupole moment contributes to the gravitational radiation from an idealized binary system.

Note:

v4: 8 pages, no figures; Uses REVTeX 4.1; improved notation and additional comments/clarifications; updated references

General relativity, alternative theories of gravity
derivative: high
metric: perturbation
gravitation: model
background: metric
space-time: perturbation
gravitational radiation
field equations
higher-order
transverse

References(0)

Figures(0)

Loading ...