The aim of this book is to show that the probabilistic formalisms of classical statistical mechanics and quantum mechanics can be unified on the basis of a general contextual probabilistic model. By taking into account the dependence of (classical) probabilities on contexts (i.e. complexes of physical conditions), one can reproduce all distinct features of quantum probabilities such as the interference of probabilities and the violation of Bell’s inequality. Moreover, by starting with a formula for the interference of probabilities (which generalizes the well known classical formula of total probability), one can construct the representation of contextual probabilities by complex probability amplitudes or, in the abstract formalism, by normalized vectors of the complex Hilbert space or its hyperbolic generalization. Thus the Hilbert space representation of probabilities can be naturally derived from classical probabilistic assumptions. An important chapter of the book critically reviews known no-go theorems: the impossibility to establish a finer description of micro-phenomena than provided by quantum mechanics; and, in particular, the commonly accepted consequences of Bell’s theorem (including quantum non-locality). Also, possible applications of the contextual probabilistic model and its quantum-like representation in complex Hilbert spaces in other fields (e.g. in cognitive science and psychology) are discussed.
Author(s): Prof. Andrei Khrennikov (auth.)
Series: Fundamental Theories of Physics 160
Edition: 1
Publisher: Springer Netherlands
Year: 2009
Language: English
Pages: 354
Tags: Quantum Physics;Probability Theory and Stochastic Processes;Quantum Computing, Information and Physics;Statistical Physics;Mathematical and Computational Physics
Front Matter....Pages i-xxviii
Front Matter....Pages 1-2
Quantum Mechanics: Postulates and Interpretations....Pages 3-26
Classical Probability Theories....Pages 27-43
Front Matter....Pages 45-46
Contextual Probability and Interference....Pages 47-79
Quantum-Like Representation of Contextual Probabilistic Model....Pages 81-114
Ensemble Representation of Contextual Statistical Model....Pages 115-130
Latent Quantum-Like Structure in the Kolmogorov Model....Pages 131-158
Interference of Probabilities from Law of Large Numbers....Pages 159-167
Front Matter....Pages 169-170
Probabilistic Analysis of Bell’s Argument....Pages 171-191
Bell’s Inequality for Conditional Probabilities....Pages 193-203
Frequency Probabilistic Analysis of Bell-Type Considerations....Pages 205-222
Original EPR-Experiment: Local Realistic Model....Pages 223-237
Front Matter....Pages 239-240
Discrete Time Dynamics....Pages 241-267
Noncommutative Probability in Classical Disordered Systems....Pages 269-277
Derivation of Schrödinger’s Equation in the Contextual Probabilistic Framework....Pages 279-290
Front Matter....Pages 291-292
Representation of Contextual Statistical Model by Hyperbolic Amplitudes....Pages 293-310
Hyperbolic Quantum Mechanics as Deformation of Conventional Classical Mechanics....Pages 311-324
Back Matter....Pages 325-353
