Quantum-like Cognition and Decision-Making: Interpretation of Phases in Quantum-like Superposition
Andrei Khrennikov

TL;DR
This paper explains how phases in quantum-like models of cognition might represent brain oscillations, bridging quantum theory and neuroscience.
Contribution
It proposes a neuronal interpretation of phase factors in quantum-like cognition models, moving beyond phenomenological assumptions.
Findings
Phase factors in quantum-like models correspond to neuronal oscillation phases.
This interpretation provides a physical basis for QCDM parameters.
It connects quantum-like models to classical neurocognitive frameworks.
Abstract
This paper addresses a central conceptual challenge in Quantum-like Cognition and Decision-Making (QCDM) and the broader research program of Quantum-like Modeling (QLM): the interpretation of phases in quantum-like state superpositions. In QLM, system states are represented by normalized vectors in a complex Hilbert space, |ψ〉=∑kXk|k〉, where the squared amplitudes Pk=|Xk|2 are outcome probabilities. However, the meaning of the phase factors eiϕk in the coefficients Xk=Pkeiϕk has remained elusive, often treating them as purely phenomenological parameters. This practice, while successful in describing cognitive interference effects (the “interference of the mind”), has drawn criticism for expanding the model’s parameter space without a clear physical or cognitive underpinning. Building on a recent framework that connects QCDM to neuronal network activity, we propose a concrete…
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Taxonomy
TopicsQuantum Mechanics and Applications · Embodied and Extended Cognition · Neural and Behavioral Psychology Studies
