Classical general relativity is recast as a non-conservative action-dependent field theory by formulating its Hilbert action in terms of conformal spacetime geometry supplemented by a dissipative sector.
University of Chicago press
2 Pith papers cite this work. Polarity classification is still indexing.
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gr-qc 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Quantized ingoing and outgoing null expansion operators in spherically symmetric LQG are self-adjoint with a shared continuous spectrum but differing isolated eigenvalues.
citing papers explorer
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Classical General Relativity as a Non-Conservative Action-Dependent Field Theory
Classical general relativity is recast as a non-conservative action-dependent field theory by formulating its Hilbert action in terms of conformal spacetime geometry supplemented by a dissipative sector.
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Expansion operators in spherically symmetric loop quantum gravity
Quantized ingoing and outgoing null expansion operators in spherically symmetric LQG are self-adjoint with a shared continuous spectrum but differing isolated eigenvalues.