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Main Author: MV, Pradosh Keshav
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.05829
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author MV, Pradosh Keshav
author_facet MV, Pradosh Keshav
contents The problem of time in canonical quantum gravity remains one of the most significant challenges, primarily due to the "frozen" formalism emerging from the Wheeler-DeWitt equation. Within the ADM formalism, we introduce a novel approach in which a scalar field is treated as a stochastic clock. By imposing a divergence-free condition on the scalar momentum, we integrate out quantum gravitational fluctuations and derive an effective noise term via the Hubbard-Stratonovich transformation. This noise drives dynamic adjustments in spacetime foliations, enabling a Schrodinger-like evolution that preserves diffeomorphism invariance and, upon noise averaging, maintains unitary evolution. Interestingly, by introducing stochastic variations in the foliations, the quantum indeterminacy of the clock recasts time as a diffusive process emerging from quantum fluctuations, where correlations between matter and geometry replace an absolute time parameter. This provides a potential pathway for understanding quantum time evolution while maintaining background independence in canonical quantum gravity.
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publishDate 2025
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spellingShingle Relational Time as a Stochastic Variable in ADM Gravity
MV, Pradosh Keshav
General Relativity and Quantum Cosmology
The problem of time in canonical quantum gravity remains one of the most significant challenges, primarily due to the "frozen" formalism emerging from the Wheeler-DeWitt equation. Within the ADM formalism, we introduce a novel approach in which a scalar field is treated as a stochastic clock. By imposing a divergence-free condition on the scalar momentum, we integrate out quantum gravitational fluctuations and derive an effective noise term via the Hubbard-Stratonovich transformation. This noise drives dynamic adjustments in spacetime foliations, enabling a Schrodinger-like evolution that preserves diffeomorphism invariance and, upon noise averaging, maintains unitary evolution. Interestingly, by introducing stochastic variations in the foliations, the quantum indeterminacy of the clock recasts time as a diffusive process emerging from quantum fluctuations, where correlations between matter and geometry replace an absolute time parameter. This provides a potential pathway for understanding quantum time evolution while maintaining background independence in canonical quantum gravity.
title Relational Time as a Stochastic Variable in ADM Gravity
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2502.05829