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Decoherence limit of quantum systems obeying generalized uncertainty principle: new paradigm for Tsallis thermostatistics

Petr JizbaFNSPE, Czech Technical University in Prague, Břehová 7, 115 19, Prague, Czech Republic and ITP, Freie Universität Berlin, Arnimallee 14, D-14195 Berlin, GermanyGaetano LambiaseFNSPE, Czech Technical University in Prague, Břehová 7, 115 19, Prague, Czech Republic and ITP, Freie Universität Berlin, Arnimallee 14, D-14195 Berlin, GermanyGiuseppe Gaetano LucianoFNSPE, Czech Technical University in Prague, Břehová 7, 115 19, Prague, Czech Republic and ITP, Freie Universität Berlin, Arnimallee 14, D-14195 Berlin, GermanyLuciano PetruzzielloFNSPE, Czech Technical University in Prague, Břehová 7, 115 19, Prague, Czech Republic and ITP, Freie Universität Berlin, Arnimallee 14, D-14195 Berlin, Germany
2022en
ABI

Аннотация

The generalized uncertainty principle (GUP) is a phenomenological model whose purpose is to account for a minimal length scale (e.g., Planck scale or characteristic inverse-mass scale in effective quantum description) in quantum systems. In this Letter, we study possible observational effects of GUP systems in their decoherence domain. We first derive coherent states associated to GUP and unveil that in the momentum representation they coincide with Tsallis' probability amplitudes, whose non-extensivity parameter $q$ monotonically increases with the GUP deformation parameter $\beta$. Secondly, for $\beta < 0$ (i.e., $q < 1$), we show that, due to Bekner-Babenko inequality, the GUP is fully equivalent to information-theoretic uncertainty relations based on Tsallis-entropy-power. Finally, we invoke the Maximal Entropy principle known from estimation theory to reveal connection between the quasi-classical (decoherence) limit of GUP-related quantum theory and non-extensive thermostatistics of Tsallis. This might provide an exciting paradigm in a range of fields from quantum theory to analog gravity. For instance, in some quantum gravity theories, such as conformal gravity, aforementioned quasi-classical regime has relevant observational consequences. We discuss some of the implications.

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