Gravitationally Mediated Entanglement: Newtonian Field vs. Gravitons
Daine L. Danielson, Gautam Satishchandran, Robert M. Wald
TL;DR
The paper addresses whether Newtonian entanglement between spatially separated masses can reveal graviton-mediated entanglement and what this implies for quantum gravity. It develops a rigorous, general reanalysis of the Mari et al. gedankenexperiment within linearized gravity, deriving precise decoherence measures for Alice and Bob and reconciling two descriptions of entanglement (via the Newtonian field or via on-shell gravitons) under the same protocol. The findings show that no causality or complementarity violations occur and that Newtonian entanglement and graviton entanglement are indistinguishable in this setup, supporting the view that Newtonian tests provide evidence for graviton quantization. The work strengthens the case for graviton existence and clarifies how low-energy tabletop experiments can probe fundamental quantum-gravity properties.
Abstract
We argue that if the Newtonian gravitational field of a body can mediate entanglement with another body, then it should also be possible for the body producing the Newtonian field to entangle directly with on-shell gravitons. Our arguments are made by revisiting a gedankenexperiment previously analyzed by Belenchia et al., which showed that a quantum superposition of a massive body requires both quantized gravitational radiation and local vacuum fluctuations of the spacetime metric in order to avoid contradictions with complementarity and causality. We provide a precise and rigorous description of the entanglement and decoherence effects occurring in this gedankenexperiment, thereby significantly improving upon the back-of-the-envelope estimates given in the analysis of Belenchia et al. and also showing that their conclusions are valid in much more general circumstances. As a by-product of our analysis, we show that under the protocols of the gedankenexperiment, there is no clear distinction between entanglement mediated by the Newtonian gravitational field of a body and entanglement mediated by on-shell gravitons emitted by the body. This suggests that Newtonian entanglement implies the existence of graviton entanglement and supports the view that the experimental discovery of Newtonian entanglement may be viewed as implying the existence of the graviton.
