Quantum Causal Entropy and the Emergence of Wave–Particle Duality

Key Points

Wave–particle duality can be explained through the Quantum Causal Entropy framework, which modifies path integrals.
Quantitative predictions for thermally asymmetric interference experiments are derived, indicating distinct outcomes.
Analysis using entropy-weighted path integrals offers insight into the suppression of interference phenomena.
Cumulative causal entropy growth is linked to environmental decoherence, supporting macroscopic implications.

Abstract

We propose a Quantum Causal Entropy (QCE) framework in which microscopic entropy increments associated with individual causal links modify the Feynman path amplitude through an exponential weighting factor exp(−SΓ). This entropy-weighted path integral provides a dynamical mechanism for wave–particle duality and interference suppression. The entropy contrast parameter is generalized to multi-path systems, and the Born-rule structure emerges in the regime of distinguishable outcomes. We show that environmental decoherence appears as the macroscopic limit of cumulative causal entropy growth. Aquantitative prediction for thermally asymmetric interference experiments is derived.

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UDESH KUMAR BHATRIYA (Fri,) studied this question.

synapsesocial.com/papers/69a766e0badf0bb9e87decb4 https://doi.org/https://doi.org/10.5281/zenodo.18503885

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