every particle interaction creates n parallel universes which never physically interfere with each other”
Although a fairly standard way of explaining MWI, this is an example of conflating coherence and decoherence. To get branches that never interact with each other again, you need decoherence, but decoherence is a complex dynamical process..it takes some time...so it is not going to occur once per elementary interaction. It’s reasonable to suppose that elementary interactions produce coherent superpositions, on the other hand, but these are not mutually isolated “worlds”. And we have fairly strong evidence for them..
quantum computing relies on complex coherent superpositions....so any idea that all superpositions just automatically and instantly decohere must be rejected.
Although a fairly standard way of explaining MWI, this is an example of conflating coherence and decoherence. To get branches that never interact with each other again, you need decoherence, but decoherence is a complex dynamical process..it takes some time...so it is not going to occur once per elementary interaction. It’s reasonable to suppose that elementary interactions produce coherent superpositions, on the other hand, but these are not mutually isolated “worlds”. And we have fairly strong evidence for them.. quantum computing relies on complex coherent superpositions....so any idea that all superpositions just automatically and instantly decohere must be rejected.