Correspondence principle as equivalence of categories

Autor:	Arkady Bolotin
Rok vydání:	2017
Předmět:	Quantum Physics Pure mathematics Functor Equivalence of categories Computability Hilbert space FOS: Physical sciences Mathematical Physics (math-ph) Atomic and Molecular Physics and Optics symbols.namesake Mathematics::Category Theory Thermodynamic limit symbols Ising model Quantum Physics (quant-ph) Category theory Finite set Mathematical Physics Mathematics
Zdroj:	Quantum Studies: Mathematics and Foundations. 4:309-314
ISSN:	2196-5617 2196-5609
Popis:	If quantum mechanics were to be applicable to macroscopic objects, classical mechanics would have to be a limiting case of quantum mechanics. Then the category Set that packages classical mechanics has to be in some sense a 'limiting case' of the category Hilb packaging quantum mechanics. Following from this assumption, quantum-classical correspondence can be considered as a mapping of the category Hilb to the category Set, i.e., a functor from Hilb to Set, taking place in the macroscopic limit. As a procedure, which takes us from an object of the category Hilb (i.e., a Hilbert space) in the macroscopic limit to an object of the category Set (i.e., a set of values that describe the configuration of a system), this functor must take a finite number of steps in order to make the equivalence of Hilb and Set verifiable. However, as it is shown in the present paper, such a constructivist requirement cannot be met in at least one case of an Ising model of a spin glass. This could mean that it is impossible to demonstrate the emergence of classicality totally from the formalism of standard quantum mechanics. Major revision of the previous draft; 8 pages
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a1d694e34155c3350f10a10bfcfea4b3 https://doi.org/10.1007/s40509-017-0105-2 Zobrazit plný text záznamu Full text from SpringerLink