Тени разума. В поисках науки о сознании

Books, New York.

[110] Edelman, G.M. (1988). Topobiology, an introduction to molecular embryology. Basic Books, New York.

[111] Edelman, G.M. (1989). The remembered present. A biological theory of consciousness. Basic Books, New York.

[112] Edelman, G.M. (1992). Bright air, brilliant fire: on the matter of the mind. Allen Lane, The Penguin Press, London.

[113] Einstein, A., Podolsky, P., Rosen, N. (1935). Can quantum-mechanical description of physical reality be considered complete? В сб. Quantum theory and measurement (ed. J. A. Wheeler, W. H. Zurek). Princeton University Press, 1983. Первоначально в Phys. Rev., 47, 777-780.

[114] Elitzur, A. C, Vaidman, L. (1993). Quantum-mechanical interaction-free measurements. Found, of Phys., 23, 987-997.

115] Elkies, Noam G. (1988). On A4 + B4 + C4 = D4. Maths, of Computation, 51, (No. 184), 825-835.

[116] Everett, H. (1957). 'Relative State'formulation of quantum mechanics. В сб. Quantum theory and measurement (ed. J. A. Wheeler, W H. Zurek). Princeton University Press, 1983; первоначально в Rev. of Modern Physics, 29, 454-462.

[117] Feferman, S. (1988). Turing in the Land of O(z). В сб. The universal Turing machine: a half-century survey (ed. R. Herken). Kammererand Unverzagt, Hamburg.

[118] Feynman, R. P. (1948). Space-time approach to non-relativistic quantum mechanics. Revs. Mod. Phys., 20, 367-387.

[119] Feynman, R. P. (1982). Simulating physics with computers. Int. J. Theor. Phys., 21 (6/7), 467-488.

[120] Feynman, R.P. (1985). Quantum mechanical computers. Optics News, Feb., 11-20.

[121] Feynman, R.P. (1986). Quantum mechanical computers. Foundations of Physics, 16 (6), 507-531.

[122] Fodor, J. A. (1983). The modularity of mind. MIT Press, Cambridge, Massachusetts.

[123] Franks, N.P., Lieb, W.R. (1982). Molecular mechanics of general anaesthesia. Nature, 300, 487-493.

[124] Freedman, D. H. (1994). Brainmakers. Simon and Schuster, New York.

[125] Freedman, S.J., Clauser, J. F. (1972). Experimental test of local hidden-variable theories. В сб. Quantum theory and measurement (ed. J.A.Wheeler, W.H.Zurek). Princeton University Press, 1983; первоначально в Phys. Rev. Lett., 28, 938-941.6

[126] Frege, G. (1893). Grundgesetze der Arithmetik, begrif-fsschriftlich abelgeleitet, Vol. 1. H. Pohle, Jena.

[127] Frege, G. (1964). The basic laws of arithmetic, translated and edited with an introduction by Montgomery Firth. University of California Press, Berkeley.

[128] French, J. W. (1940). Trial and error learning in paramecium. J. Exp. Psychol., 26, 609- 613.

[129] Frohlich, H. (1968). Long-range coherence and energy storage in biological systems. Int. Jour, of Quantum. Chem., 11, 641-649.

[130] Frohlich, H. (1970). Long range coherence and the actions of enzymes. Nature, 228, 1093.

[131] Frohlich, H. (1975). The extraordinary dielectric properties of biological materials and the action of enzymes, Proc. Natl. Acad. ScL, 72 (11), 4211-4215.

[132] Frohlich, H. (1984). General theory of coherent excitations on biological systems. В сб. Nonlinear electrodynamics in biological systems (ed. W. R. Adey, A. F. Lawrence). Plenum Press, New York.

[133] Frohlich, H. (1986). Coherent excitations in active biological systems. В сб. Modern bioelectrochemistry (ed. F. Gutmann, H. Keyzer). Plenum Press, New York.

[134] Fukui, K., Asai, H. (1976). Spiral motion of Paramecium caudatum in small capillary glass tube. /. Protozoal., 23, 559-563.

[135] Gandy, R. (1988). The confluence of ideas in 1936. В сб. The universal Turing machine: a half-century survey (ed. R. Herken). Kammererand Unverzagt, Hamburg.

[136] Gardner, M. (1965). Mathematical magic show. Alfred Knopf, New York; Random House, Toronto.

[137] Gardner, M. (1970). Mathematical games: the fantastic combinations of John Conway's new solitaire game 'Life'. Scientific American, 223, 120-123.

[138] Gardner, M. (1989). Penrose tiles to trapdoor ciphers. Freeman, New York.

[139] Gelber, B. (1958). Retention in paramecium aurelia. J. Сотр. Physiol. Psych., 51, 110- 115.

[140] Gelernter, D. (1994). The muse in the machine. The Free Press, Macmillan Inc., New York; Collier Macmillan, London.

[141] Gell-Mann, M., Hartle, J.B. (1993). Classical equations for quantum systems. Phys. Rev., D47, 3345-3382.

[142] Gernoth, K.A., Clark, J.W., Prater, J.S., Bohr, H. (1993). Neural network models of nuclear systematics. Phys. Lett., B300, 1-7.

[143] Geroch, R. (1984). The Everett interpretation. Nous, 4 (специальный выпуск, посвященный основным принципам квантовой механики), 617-633.

[144] Geroch, R., Hartle, J. В. (1986). Computability and physical theories. Found. Phys., 16, 533.

[145] Ghirardi, G.C., Rimini, A., Weber, T. (1980). A general argument against superluminal transmission through the quantum mechanical measurement process. Lett. Nuovo Cirri., 21, 293-298.

[146] Ghirardi, G.C., Rimini, A., Weber, T. (1986). Unified dynamics for microscopic and macroscopic systems. Phys. Rev., D34, 470.

[147] Ghirardi, G. C., Grassi, R., Rimini, A. (1990). Continuous-spontaneous-reduction model involving gravity. Phys. Rev., A42, 1057-1064.

[148] Ghirardi, G.C., Grassi, R., Pearle, P. (1990). Relativistic dynamical reduction models: general framework and examples. Foundations of Physics, 20, 1271-1316.

[149] Ghirardi, G.C., Grassi, R., Pearle, P. (1992). Comment on 'Explicit collapse and superluminal signals'. Phys. Lett., A166, 435-438.

[150] Ghirardi, G.C., Grassi, R., Pearle, P. (1993). Negotiating the tricky border between quantum and classical. Physics Today, 46, 13.

[151] Gisin, N.(1989). Stochastic quantum dynamics and relativity. Helv. Phys. Acta, 62, 363- 371.

[152] Gisin, N., Percival, I. C. (1993). Stochastic wave equations versus parallel world components. Phys. Lett., A175, 144-145.

[153] Gleick, J. (1987). Chaos. Making a new science. Penguin Books.

[154] Glymour, C, Kelly, K.. (1990). Why you'll never know whether Roger Penrose is a computer. Behavioural and Brain Sciences, 13 (4), 666.

[155] Godel, К. (1931). Uber formal unentscheidbare Satze per Principia Mathematica und verwandter Systeme 1. Monatshefte fur Mathematik und Physik, 38, 173-198.

[156] Godel, K- (1940). The consistency of the axiom of choice and of the generalized continuum-hypothesis with the axioms of set theory. Princeton University Press, Oxford University Press.

[157] Godel, K. (1949). An example of a new type of cosmological solution of Einstein's field equations of gravitation. Rev. of Mod.Phys.,21,447.

[158] Godel, K. (1986). Kurt Godel, collected works, Vol. I (publications 1929-1936) (ed. S.Feferman et al.). Oxford University Press.

[159] Godel, K. (1990). Kurt Godel, collected works. Vol. II (publications 1938-1974) (ed. S.Feferman et al.). Oxford University Press.

[160] Godel, K. (1995). Kurt Godel, collected works, Vol. Ill (ed. S. Feferman et al.). Oxford