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Quantum Model Theory (QMod): Modeling contextual emergent entangled interfering entities

Boekbijdrage - Hoofdstuk

In this paper we present 'Quantum Model Theory' (QMod), a theory we developed to model entities that entail the typical quantum effects of 'contextuality, 'superposition', 'interference', 'entanglement' and 'emergence'. This aim of QMod is to put forward a theoretical framework that has the technical power of standard quantum mechanics, namely it makes explicitly use of the standard complex Hilbert space and its quantum mechanical calculus, but is also more general than standard quantum mechanics, in the sense that it only uses this quantum calculus locally, i.e. for each context corresponding to a measurement. In this sense, QMod is a generalization of quantum mechanics, similar to how the general relativity manifold mathematical formalism is a generalization of special relativity and classical physics. We prove by means of a representation theorem that QMod can be used for any entity entailing the typical quantum effects mentioned above. Some examples of application of QMod in concept theory and macroscopic physics are also considered.
Boek: Quantum Interaction
Series: Theoretical Computer Science and General Issues
Pagina's: 126-137
Aantal pagina's: 12
ISBN:978-3-642-35658-2
Trefwoorden:quantum modeling, QMod, contextuality, interference
  • ORCID: /0000-0003-2266-6658/work/55884354
  • Scopus Id: 84870803935
  • VABB Id: c:vabb:340930