• Corpus ID: 253255512

Born rule: quantum probability as classical probability

  title={Born rule: quantum probability as classical probability},
  author={Ovidiu Cristinel Stoica},

Figures from this paper



Derivation of the Born rule from operational assumptions

  • S. Saunders
  • Mathematics
    Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences
  • 2004
The Born rule is derived from operational assumptions, together with assumptions of quantum mechanics that concern only the deterministic development of the state, and provides a probability rule for state spaces that are not Hilbert spaces.

Measurement outcomes and probability in Everettian quantum mechanics

Quantum probability from decision theory?

In a recent paper, Deutsch claims to derive the ‘probabilistic predictions of quantum theory’ from the ‘non–probabilistic axioms of quantum theory’ and the ‘nonprobabilistic part of classical

Quantum theory of probability and decisions

  • D. Deutsch
  • Philosophy, Physics
    Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences
  • 1999
The probabilistic predictions of quantum theory are conventionally obtained from a special probabilistic axiom. But that is unnecessary because all the practical consequences of such predictions

Quantum Mechanics of Individual Systems

A discussion of the meaning of the “state” of an individual quantum mechanical system is given, and an application is made to the clarification of some of the paradoxical features of the theory.

Derivations of the Born Rule

  • L. Vaidman
  • Philosophy
    Jerusalem Studies in Philosophy and History of Science
  • 2020
The Born rule, a cornerstone of quantum theory usually taken as a postulate, continues to attract numerous attempts for its derivation. A critical review of these derivations, from early attempts to

COUNTING 3D-SPACES Classicality and probability in standard and many-worlds quantum mechanics from quantum-gravitational background-freedom

I explain that background freedom in quantum gravity automatically leads to a dissociation of the quantum state into states having a classical 3d-space. That is, interference is not completely

Probability in the Many-Worlds Interpretation of Quantum Mechanics

It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is no “probability” for an outcome of a quantum experiment in the usual sense, we can understand why we have