Perhaps I am. Maybe you could explain further. In the usual naive gravitational field theory, energy is exchanged with mater in quanta, ##E=\hbar \omega##. In a low energy test, an atom could absorb a graviton quanta. Now, I'd be the first to agree that the cross section of such a reaction is exceedingly small making it impractical to detect. However, the process is allowed and not classical as far as I can tell.PeterDonis said:You're missing the point.
Yes, but we have no feasible way of testing for this, now or in the foreseeable future. Or for any other process where the quantum theory would make a different prediction from classical GR, which is the classical limit of the quantum theory.Paul Colby said:In a low energy test, an atom could absorb a graviton quanta.
Yes. I have not said otherwise. I was not saying that there can't be any non-classical processes involving gravity.Paul Colby said:the process is allowed and not classical as far as I can tell.
Vanadium 50 said:Now place a black hole between them. I would expect -= and again, there's no theory so no way to do the calculation - the detector to stop seeing the emitter.
We already have an open thread on this (and not the first one we've had):Algr said:can gravitons escape a black hole?