TL;DR
This paper explores how quantum entanglement influences gravitational fields, suggesting that entanglement has a measurable weight and impacts gravity, bridging quantum correlations and relativistic physics.
Contribution
It demonstrates that quantum entanglement can produce gravitational effects, indicating a novel physical property of entanglement affecting spacetime.
Findings
Quantum correlations induce small gravitational perturbations.
Entanglement effects depend on the amount of quantum correlations.
Quantum entanglement may have a physical weight affecting gravity.
Abstract
We investigate a scenario where quantum correlations affect the gravitational field. We show that quantum correlations between particles occupying different positions have an effect on the gravitational field. We find that the small perturbations induced by the entanglement depend on the amount of entanglement and vanish for vanishing quantum correlations. Our results suggest that there is a form of entanglement that has a weight, since it affects the gravitational field. This conclusion may lead towards a new understanding of the role of quantum correlations within the overlap of relativistic and quantum theories.
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