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When a massive quantum body is put into a spatial superposition, it is of interest to consider the quantum aspects of the gravitational field sourced by the body. We argue that in order to understand how the body may become entangled with other massive bodies via gravitational interactions, it must be thought of as being entangled with its own Newtonian-like gravitational field. Thus, a Newtonian-like gravitational field must be capable of carrying quantum information. Our analysis supports the view that table-top experiments testing entanglement of systems interacting via gravity do probe the quantum nature of gravity, even if no “gravitons” are emitted during the experiment.more » « less
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Belenchia, Alessio ; Wald, Robert M. ; Giacomini, Flaminia ; Castro-Ruiz, Esteban ; Brukner, Časlav ; Aspelmeyer, Markus ( , Physical Review D)
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Armata, Federico ; Latmiral, Ludovico ; Pikovski, Igor ; Vanner, Michael R. ; Brukner, Časlav ; Kim, M. S. ( , Physical Review A)