Non-quantized gravity models that preserve Galilean invariance and reproduce Newtonian interaction on average require a minimal noise injection to remain non-entangling.
Gravitationally induced decoherence vs space-time diffusion: testing the quantum nature of gravity,
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
citation-role summary
background 1
method 1
citation-polarity summary
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Postquantum classical gravity requires stochastic spacetime fluctuations consisting of a diffusing spin-2 field and spin-0 scalar whose noise is constrained by LISA Pathfinder and decoherence bounds.
A subclass of hybrid Lindblad equations with detailed balance converges to thermal hybrid states, where coupling can convert Gaussian distributions to bimodal ones.
citing papers explorer
-
Minimal noise in non-quantized gravity
Non-quantized gravity models that preserve Galilean invariance and reproduce Newtonian interaction on average require a minimal noise injection to remain non-entangling.
-
Stochastic modes in postquantum classical gravity
Postquantum classical gravity requires stochastic spacetime fluctuations consisting of a diffusing spin-2 field and spin-0 scalar whose noise is constrained by LISA Pathfinder and decoherence bounds.
-
Hybrid quantum-classical dynamics with stationary thermal states
A subclass of hybrid Lindblad equations with detailed balance converges to thermal hybrid states, where coupling can convert Gaussian distributions to bimodal ones.