Bell-type correlations are reinterpreted as sequential single-spin auto-correlations under counterfactual equivalence, explaining non-locality via state-altering measurements on undefined quantities.
Quantum Dynamics as an analog of Conditional Probability
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abstract
Quantum theory can be regarded as a non-commutative generalization of classical probability. From this point of view, one expects quantum dynamics to be analogous to classical conditional probabilities. In this paper, a variant of the well-known isomorphism between completely positive maps and bipartite density operators is derived, which makes this connection much more explicit. The new isomorphism is given an operational interpretation in terms of statistical correlations between ensemble preparation procedures and outcomes of measurements. Finally, the isomorphism is applied to elucidate the connection between no-cloning/no-broadcasting theorems and the monogamy of entanglement, and a simplified proof of the no-broadcasting theorem is obtained as a byproduct.
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quant-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Bell's theorem: why probability factorisation fails
Bell-type correlations are reinterpreted as sequential single-spin auto-correlations under counterfactual equivalence, explaining non-locality via state-altering measurements on undefined quantities.