Entanglement as a Method to Reduce Uncertainty
This work addresses the fundamental nature of entanglement for researchers in quantum foundations and cognitive science, but it is incremental as it extends known physical principles to new domains.
The paper tackles the problem of understanding entanglement beyond quantum physics by showing that the reduction of entropy through composition also occurs in human cognition and culture, and proposes that entanglement arises from a collaborative process among sub-entities to reduce uncertainty.
In physics, entanglement 'reduces' the entropy of an entity, because the (von Neumann) entropy of, e.g., a composite bipartite entity in a pure entangled state is systematically lower than the entropy of the component sub-entities. We show here that this 'genuinely non-classical reduction of entropy as a result of composition' also holds whenever two concepts combine in human cognition and, more generally, it is valid in human culture. We exploit these results and make a 'new hypothesis' on the nature of entanglement, namely, the production of entanglement in the preparation of a composite entity can be seen as a 'dynamical process of collaboration between its sub-entities to reduce uncertainty', because the composite entity is in a pure state while its sub-entities are in a non-pure, or density, state, as a result of the preparation. We identify within the nature of this entanglement a mechanism of contextual updating and illustrate the mechanism in the example we analyze. Our hypothesis naturally explains the 'non-classical nature' of some quantum logical connectives, as due to Bell-type correlations.