then this superluminal influence can’t be leveraged to transmit information superluminally.
Yes, theoretically it could, but not in an average sense. Quantum mechanics standard is recovered when the wave functions is in equilibrium, but in out-of-equilibrium states you can have violation of relativity or of the Heisenberg uncertainty.
Well, quantum non-equilibrium (based on your Wikipedia link) violates the condition I specified (“the experimenter’s epistemic state is represented by the wave function”). I had assumed that was a pre-supposition of Bohmian mechanics, but apparently it is not (at least for some proponents of Bohmianism).
Yes, theoretically it could, but not in an average sense. Quantum mechanics standard is recovered when the wave functions is in equilibrium, but in out-of-equilibrium states you can have violation of relativity or of the Heisenberg uncertainty.
Well, quantum non-equilibrium (based on your Wikipedia link) violates the condition I specified (“the experimenter’s epistemic state is represented by the wave function”). I had assumed that was a pre-supposition of Bohmian mechanics, but apparently it is not (at least for some proponents of Bohmianism).
Interesting, thanks.