Toward a Science of Consciousness

From Complex Adaptive Systems

Toward a Science of Consciousness

The First Tucson Discussions and Debates

Edited by Stuart R. Hameroff, Alfred W. Kaszniak and Alwyn C. Scott

A Bradford Book





Scientists and philosophers are focusing more intensely than ever on the nature of our human experience, resulting in a newly coalescing field of Consciousness Studies that has become a worldwide and highly interdisciplinary phenomenon.

Toward a Science of Consciousness marks the first major gathering—a landmark event—devoted entirely to unlocking the mysteries of consciousness. It explores the whole spectrum of approaches from philosophy of mind and dream research, to neuropsychology, pharmacology, and molecular dynamics, to neural networks, phenomenological accounts, and even the physics of reality. The aim is to lay a sound scientific foundation for future research while also reaching consensus on many scattered areas of inquiry.

Following an overview, fifty-five chapters are divided into ten sections: philosophy, cognitive science, medicine/pathology, neurology, neural networks, subneural biology, quantum theory, non-locality in space and time, hierarchical organization, and phenomenology.

In addition to the editors, who are, respectively, an anesthesiologist, a psychologist, and an applied mathematician, contributors include such luminaries as David Chalmers, Michael Conrad, Avshalom Elitzur, Owen Flanagan, David Galin, John Kihlstrom, Christof Koch, Benjamin Libet, Roger Penrose, Karl Pribram, Gary Schwartz, Petra Stoerig, John Taylor, Andrew Weil, Fred Wolf, and many others.


Out of Print ISBN: 9780262082495 804 pp. | 7 in x 10 in


$80.00 X ISBN: 9780262527651 804 pp. | 7 in x 10 in


Stuart R. Hameroff

Alfred W. Kaszniak

Alwyn C. Scott


  • The exploration of consciousness is one of the most challenging problems of the human mind, where bold new concepts are required. This book provides the reader with exciting new ideas from a variety of scientific disciplines and thus serves as a highly useful basis forfuture research in this field.

    Hermann P. J. Haken

    Professor of Theoretical Physics and Synergetics, University of Stuttgart