Classical versus quantum probability in sequential measurements
DOI10.1007/S10701-006-9077-5zbMath1106.81012arXivquant-ph/0509019OpenAlexW2029254142MaRDI QIDQ867170
Publication date: 15 February 2007
Published in: Foundations of Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/quant-ph/0509019
stochastic processesquantum measurementsquantum probabilitydecoherent historiescontextualitysequential measurements
General and philosophical questions in quantum theory (81P05) Vector-valued set functions, measures and integrals (28B05) Quantum stochastic calculus (81S25) Quantum measurement theory, state operations, state preparations (81P15) Monotone and positive operators on ordered Banach spaces or other ordered topological vector spaces (47H07) Derivations, dissipations and positive semigroups in (C^*)-algebras (46L57)
Related Items (7)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- A general argument against the universal validity of the superposition principle
- Consistent histories and the interpretation of quantum mechanics
- Logical reformulation of quantum mechanics. I: Foundations
- The weak and the strong couplings and general covariance
- Determinism in free bosons
- Properties of the frequency operator do not imply the quantum probability postulate
- Quantum logic and decoherence
- Quantum processes on phase space.
- On the relation between quantum mechanical probabilities and event frequencies
- Quantum redundancies and local realism
- An operational approach to quantum probability
- Statistical Structure of Quantum Theory
- Sequential quantum measurements
- Time-of-arrival probabilities and quantum measurements
- Bell's Inequalities and Density Matrices: Revealing “Hidden” Nonlocality
- Consistent Sets Yield Contrary Inferences in Quantum Theory
- The Quantum Theory of Measurement
This page was built for publication: Classical versus quantum probability in sequential measurements
