On the Canonical Formalism for a Higher-Curvature Gravity
classification
🌀 gr-qc
keywords
canonicalformalismgravityhigher-curvaturebuchbindercarrycomingcoordinate
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Following the method of Buchbinder and Lyahovich, we carry out a canonical formalism for a higher-curvature gravity in which the Lagrangian density ${\cal L}$ is given in terms of a function of the salar curvature $R$ as ${\cal L}=\sqrt{-\det g_{\mu\nu}}f(R)$. The local Hamiltonian is obtained by a canonical transformation which interchanges a pair of the generalized coordinate and its canonical momentum coming from the higher derivative of the metric.
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