Mike
Oct12-06, 05:04 AM
Does the Zero Point Energy of Quantum Field Theories depend on the
curvature of spacetime? I suspect so. For we have much greater particle
creation when the early universe was tightly curled than we have today.
And we have Hawking radiation near event horizons of black hole, where
smaller BH's with tighter curvatures near the horizon produce a larger
temperature. So does any gravity gradient with greater tidal force
increase the probability that virtual pair will become permanently
separated? Thanks.
curvature of spacetime? I suspect so. For we have much greater particle
creation when the early universe was tightly curled than we have today.
And we have Hawking radiation near event horizons of black hole, where
smaller BH's with tighter curvatures near the horizon produce a larger
temperature. So does any gravity gradient with greater tidal force
increase the probability that virtual pair will become permanently
separated? Thanks.