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Chance, Choice, and Consciousness: The Role of Mind in the Quantum Brain

Henry P. Stapp

arXiv Preprint Archive November 21, 1995

Summary

Our consciousness may actively shape quantum events in our brains, rather than leaving them to pure chance. This groundbreaking analysis explores how quantum mechanics in neural processes could be guided by conscious awareness. The model demonstrates that consciousness acts as a physical force, directing quantum selections in brain activity through precise mathematical principles. This challenges traditional views that quantum events are purely random, suggesting instead that our minds play a direct causal role in neural quantum processes.

Abstract

Contemporary quantum mechanical description of nature involves two processes. The first is a dynamical process governed by the equations of local quantum field theory. This process is local and deterministic, but it generates a structure that is not compatible with observed reality. A second process is therefore invoked. This second process somehow analyzes the structure generated by the first process into a collection of possible observable realities, and selects one of these as the actually appearing reality. This selection process is not well understood. It is necessarily nonlocal and, according to orthodox thinking, is governed by an irreducible element of chance. The occurrence of this irreducible element of chance means that the theory is not naturalistic: the dynamics is controlled in part by something that is not part of the physical universe. The present work describes a quantum mechanical model of brain dynamics in which the quantum selection process is a causal process governed not by pure chance but rather by a mathematically specified nonlocal physical process identifiable as the conscious process.

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