Classical geometry to quantum behavior correspondence in a virtual extra dimension
Copyright policy )Classical geometry to quantum behavior correspondence in a virtual extra dimension
In the Lorentz invariant formalism of compact space-time dimensions the assumption of periodic boundary conditions represents a consistent semi-classical quantization condition for relativistic fields. In [arXiv:0903.3680] we have shown, for instance, that the ordinary Feynman path integral is obtained from the interference between the classical paths with different winding numbers associated with the cyclic dynamics of the field solutions. By means of the boundary conditions, the kinematics information of interactions can be encoded on the relativistic geometrodynamics of the boundary [arXiv:1110.0315]. Furthermore, such a purely four-dimensional theory is manifestly dual to an extra-dimensional field theory. The resulting correspondence between extra-dimensional geometrodynamics and ordinary quantum behavior can be interpreted in terms of AdS/CFT correspondence. By applying this approach to a simple Quark-Gluon-Plasma freeze-out model we obtain fundamental analogies with basic aspects of AdS/QCD phenomenology.
60 pages. Version published in Annals of Physics (2012). Minor corrections
- University of Melbourne Australia
High Energy Physics - Theory, Path integrals in quantum mechanics, Quantum physics, FOS: Physical sciences, Relativistic geometrodynamics, compact dimensions, High Energy Physics - Phenomenology (hep-ph), relativistic geometrodynamics, Kaluza-Klein and other higher-dimensional theories, Geometrodynamics and the holographic principle, semi-classical methods, Covariant wave equations in quantum theory, relativistic quantum mechanics, AdS/CFT correspondence, Particle physics, Kaluza-Klein theory, Strong interaction, including quantum chromodynamics, Quantum field theory, Quark–Gluon–Plasma, High Energy Physics - Phenomenology, High Energy Physics - Theory (hep-th), Compact dimensions, Quark-Gluon-Plasma, Semi-classical methods, Theoretical physics, Kaluza–Klein theory
High Energy Physics - Theory, Path integrals in quantum mechanics, Quantum physics, FOS: Physical sciences, Relativistic geometrodynamics, compact dimensions, High Energy Physics - Phenomenology (hep-ph), relativistic geometrodynamics, Kaluza-Klein and other higher-dimensional theories, Geometrodynamics and the holographic principle, semi-classical methods, Covariant wave equations in quantum theory, relativistic quantum mechanics, AdS/CFT correspondence, Particle physics, Kaluza-Klein theory, Strong interaction, including quantum chromodynamics, Quantum field theory, Quark–Gluon–Plasma, High Energy Physics - Phenomenology, High Energy Physics - Theory (hep-th), Compact dimensions, Quark-Gluon-Plasma, Semi-classical methods, Theoretical physics, Kaluza–Klein theory
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