Detection model based on representation of quantum particles by classical random fields: Born's rule and beyond
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Publication:1039260
DOI10.1007/s10701-009-9312-yzbMath1182.81018arXiv0805.1511OpenAlexW3098554825MaRDI QIDQ1039260
Publication date: 27 November 2009
Published in: Foundations of Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/0805.1511
quantum mechanicsquantum measurementsBorn's ruledetection modelposition measurementprequantum classical statistical field theory
General and philosophical questions in quantum theory (81P05) Quantum measurement theory, state operations, state preparations (81P15)
Related Items (5)
Quantum epistemology from subquantum ontology: Quantum mechanics from theory of classical random fields ⋮ Reality without realism: on the ontological and epistemological architecture of quantum mechanics ⋮ Quantum postulate vs. quantum nonlocality: on the role of the Planck constant in Bell's argument ⋮ Towards a wave resolution of the wave-particle duality ⋮ From a 1D completed scattering and double slit diffraction to the quantum-classical problem for isolated systems
Cites Work
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- Complex numbers and symmetries in quantum mechanics, and a nonlinear superposition principle for Wigner functions
- Nonlinear Schrödinger equations from prequantum classical statistical field theory
- EPR-Bohm experiment and Bell's inequality: Quantum physics meets probability theory
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- Bell's inequality for two-particle mixed spin states
- QUANTUM MECHANICS AS QUANTUM MEASURE THEORY
- Note on the existence theorem in ‘emergent quantum mechanics and emergent symmetries’
- Interpretations of Probability
- Violation of Bell's Inequality under Strict Einstein Locality Conditions
- Quantum optical implementation of Grover's algorithm
- A Proposed Solution of the Measurement Problem in Quantum Mechanics by a Hidden Variable Theory
- A pre-quantum classical statistical model with infinite-dimensional phase space
- Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?
- A New Form for the Statistical Postulate of Quantum Mechanics
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