My research is in quantum optics and information, more specifically macroscopic tests of Bell’s inequality and applications to quantum cryptography through things like the Ekert protocol.
I didn’t realize that the quantum mechanics sequence here made such conclusions, thanks for pointing that out, maybe I’ll check it out to see what he says. I’ve given some thought to many worlds, but not enough to be an expert, as my work doesn’t necessitate it. From what I know, I’m not so convinced that many worlds is the correct interpretation, I think answers to the meaning of the wave function collapse will come more form decoherence mechanisms giving the appearance of a collapse.
Decoherence is a measurable physical effect and is interpretation-agnostic. “Each you” only appears in the MWI ontology. pan did not state anything about there being more than one copy of the observer as a result of decoherence.
My research is in quantum optics and information, more specifically macroscopic tests of Bell’s inequality and applications to quantum cryptography through things like the Ekert protocol.
I didn’t realize that the quantum mechanics sequence here made such conclusions, thanks for pointing that out, maybe I’ll check it out to see what he says. I’ve given some thought to many worlds, but not enough to be an expert, as my work doesn’t necessitate it. From what I know, I’m not so convinced that many worlds is the correct interpretation, I think answers to the meaning of the wave function collapse will come more form decoherence mechanisms giving the appearance of a collapse.
Forgive my ignorance, but isn’t that the official many-world’s position—that decoherence provides each “you” with the appearance of collapse?
Decoherence is a measurable physical effect and is interpretation-agnostic. “Each you” only appears in the MWI ontology. pan did not state anything about there being more than one copy of the observer as a result of decoherence.
That makes sense; are you a physicist, too?
Trained, not practicing.