Nonunitary Newtonian Gravity Makes Semiclassical Gravity Viable for All Practical Purposes

Abstract

Semiclassical Gravity replaces the energy momentum tensor Tμ with its expectation value Tμ in Einstein equations, this making the Einstein tensor Gμ a classical variable thus avoiding the quantization of the gravitational field. Jointly with the Copenhagen interpretation of QM, Semiclassical Gravity gives rise to cases of Superluminal Communication. It is shown in a specific instance that a model of Nonunitary Newtonian Gravity avoids Superluminal Communication by decohering linear superpositions of macroscopically distinct states, namely Schrodinger's cats.