arXiv:1611.07357 Abstract | arXiv Analytics

arXiv:1611.07357 [math-ph]Abstract References Reviews Resources

Entropy, topological theories and emergent quantum mechanics

D. Cabrera, P. Fernandez de Cordoba, J. M. Isidro, J. Vazquez Molina

Published 2016-11-22Version 1

The classical thermostatics of equilibrium processes is shown to possess a quantum-mechanical dual theory with a finite-dimensional Hilbert space of quantum states. Specifically, the kernel of a certain Hamiltonian operator becomes the Hilbert space of quasistatic quantum mechanics. The relation of thermostatics to topological field theory is also discussed in the context of the emergent approach to quantum theory, where the concept of entropy plays a key role.

Comments: 11 pages

Categories: math-ph, math.MP, quant-ph

Keywords: emergent quantum mechanics, topological theories, finite-dimensional hilbert space, quasistatic quantum mechanics, quantum states

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Entropy, topological theories and emergent quantum mechanics

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Entropy, topological theories and emergent quantum mechanics

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arXiv:1611.07357 [math-ph]Abstract References Reviews Resources