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arxiv: 1311.5419 · v2 · pith:A2ZOAAFZnew · submitted 2013-11-20 · 🪐 quant-ph · physics.hist-ph

Against Absolute Actualization: Three "Non-Localities" and Failure of Model-External Randomness made easy with Many-Worlds Models including Stronger Bell-Violation and Correct QM Probability

classification 🪐 quant-ph physics.hist-ph
keywords modelmodelsprobabilityactualizationbell-violationmany-worldstransitionabsolute
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Experimental violation of Bell-inequalities proves actualization of many futures (~ many-worlds); I show that this is not mere interpretation. To show this self-contained pedagogically, I resolve the EPR paradox by starting with a visually intuitive non-quantum many-worlds model that already has apparent non-locality. A modification leads to a classical-to-quantum transition model. Model-external randomness (a ghost outside the universe throwing a pebble on state-space) stays unchanged, but the modeled observers witness strong Bell-violation. I derive the quantum probability P from classical-to-quantum consistency. Model-internal probability (~ subjective Bayesianism) is derived as a measure of surprise (~ Deutsch's rational expectation). The model shows how absolute actualization, say by real hidden variables, fails. Models with P and standard Bell-violation are supplied for completeness. The transition model is the first touchable, interactive science-outreach exhibit teaching correct quantum physics. The discussion reinterprets the transition model, defends Einstein-locality, rejects "realism" etc., to the conclusion that the models teach the necessity of "many worlds/minds", rejecting probability concepts with random-randomness regress. The models teach how EPR empirically excludes certain realisms.

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