Courtney Brown, Ph.D.
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Symposium on Consciousness and Quantum Computers
New Gallery Lucerne

Lucerne, Switzerland 20 & 21 January 2007

Keynote Presentation Title: Remote Viewing, Nonlocal Consciousness, and the Nature of Time and Space

Abstract: Recent breakthroughs in the study of nonlocal consciousness using structured remote-viewing processes now unambiguously indicate that perception can extend beyond the local five physical senses of hearing, touch, sight, taste, and smell. That is, it is now clear that the brain can receive large quantities of perceptual information from nonlocal sources that are not physically connected to the five senses. It is now possible to conduct fully replicable experiments using exhaustive scientific controls that demonstrate this conclusively. Data collection procedures are now robust, faulty old experimental designs are now well-understood, new experimental designs can now provide profound and fully replicable results, and specialized statistical software is now available that can accurately evaluate the nonlocal perceptual data. Nonlocal perception also works transparently through time. The implications to our understanding of time and space are profound. If the human brain is a computational device, then it could operate as a quantum computer that utilizes nonlocal quantum properties since information can be transferred in a manner that violates the limitations imposed on the transfer of information (or anything else) by relativity theory. New cosmological ideas are required that extend well beyond the currently debated theories of time and space in order to account for these experimental results. I discuss these results involving nonphysical perception within the context of a variety of quantum and relativistic theories of physical reality, and I suggest aspects of these theories that would need modification in order to better incorporate these experimental results.