Quantum rule for detection probability from Brownian motion in the space of classical fields
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Publication:394058
DOI10.1007/s11232-013-0027-zzbMath1280.81008OpenAlexW2037395383MaRDI QIDQ394058
Sven Nordebo, Andrei Yu. Khrennikov, Börje Nilsson
Publication date: 24 January 2014
Published in: Theoretical and Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11232-013-0027-z
Born's rulefoundations of quantum mechanicsdetection probabilityclassical random fieldthreshold detector
General and philosophical questions in quantum theory (81P05) Quantum measurement theory, state operations, state preparations (81P15)
Related Items (3)
The present situation in quantum theory and its merging with general relativity ⋮ Experimental bounds on classical random field theories ⋮ Specificity of the Schrödinger equation
Cites Work
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- Unconventional approach to orbital-free density functional theory derived from a model of extended electrons
- A classical explanation of quantization
- Superanalysis, I. Differential calculus
- Nonlinear Schrödinger equations from prequantum classical statistical field theory
- On \(p\)-adic mathematical physics
- Superanalysis. II: Integral calculus
- Prequantum classical statistical field theory: complex representation, Hamilton-Schrödinger equation, and interpretation of stationary states
- Local realistic representation for correlations in the original EPR-model for position and momentum
- Generalizations of quantum mechanics induced by classical statistical field theory
- Quantization of propagating modes in optical fibres
- Adelic formulae for the gamma and beta functions of completions of algebraic number fields, and applications of them to string amplitudes
- Quantum Probabilities and Violation of CHSH-Inequality from Classical Random Signals and Threshold Type Detection Scheme
- Quantum gravity as a dissipative deterministic system
- Reduction of the wave-packet can be understood within quantum mechanics
- Distance dependence of entangled photons in waveguides
- A pre-quantum classical statistical model with infinite-dimensional phase space
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