The quantum brain: theory and implications
While for the majority of physicists the problem of the deciphering of the brain code, the intelligence code, is a matter for future generations, the author boldly and forcefully disagrees. Breaking with the dogma of classical logic he develops in the form of the conversion postulate a concrete working hypothesis for the actual thought mechanism.The reader is invited on a fascinating mathematical journey to the very edges of modern scientific knowledge. From lepton and quark to mind, from cognition to a logic analogue of the Schrodinger equation, from Fibonacci numbers to logic quantum numbers, from imaginary logic to a quantum computer, from coding theory to atomic physics - the breadth and scope of this work is overwhelming. Combining quantum physics, fundamental logic and coding theory this unique work sets the stage for future physics and is bound to titillate and challenge the imagination of physicists, biophysicists and computer designers. Growing from the author's matrix operator formalization of logic, this work pursues a synthesis of physics and logic methods, leading to the development of the concept of infophysics.The experimental verification of the proposed quantum hypothesis of the brain is presently in preparation in cooperation with the Cavendish Laboratory, Cambridge, UK, and, if proved positive, would have major theoretical implications. Even more significant should be the practical applications in such fields as molecular electronics and computer science, biophysics and neuroscience, medicine and education. The new possiblities that could be opened up by quantum level computing could be truly revolutionary.The book aims at researchers and engineers in technical sciences as well as in biophysics and biosciences in general. It should have great appeal for physicists, mathematicians, logicians and for philosophers with a mathematical bent.
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annihilation and creation atoms binary logic bits brain classical code C(n,k codeword coding theory comparison operators complementary concept converse corresponding covariant creation operators defined derive differentiation douplet duplication code eigenstates eigenvalues electron encoding equation of motion equivalent fermion Fibonacci Fibonacci numbers fundamental h h H Hadamard codes Hadamard matrix Heisenberg picture imaginary logic imaginary unit implication infophysics intelligence code interaction isospin linear code logic charges logic density matrix logic equation logic evolution logic functions logic Hamiltonian logic operators logic oscillator logic quantum numbers logic space logic state vectors logic vectors lyxxlb matrix G matrix logic negation nuclei nucleons number of protons obtain operator logic orbit orthogonal parity check matrix Pauli plAlq postulate quantum circuit quantum mechanics quantum physics quark representation rotation rows Schrodinger self-dual code self-orthogonal source word subcode symmetry tautology thought process truth values unitary transformation xy xy
Logik der Zeit - Zeit der Logik: eine Einführung in die Zeitphilosophie
No preview available - 2001
Quantum Theoretic Machines: What is thought from the point of view of Physics?
Limited preview - 2000