ULTIMATE COMPUTING - Quantum Consciousness Studies

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262 Bibliography Carter, F. L., ed. (1987). Proceedings of the 3rd International Workshop on Molecular Electronic Devices (1986). In preparation. Elsevier North- Holland, Amsterdam. Ceperley D. and B. Alder (1986). Quantum Monte Carlo. Science, 231, February, 555–560. Cook, Richard J. and H. J. Kimble (1985). Possibility of Direct Observation of Quantum Jumps. Phys. Rev. Lett., 54(10), 11 March, 1023–1026. Davydov, A. S. (1977). Solitons and Energy Transfer Along Protein Molecules. J. Theor. Biol., 66, 379–387. Davydov, A. S. (1982). Biology and Quantum Mechanics. Oxford, Pergamon. Davydov, A. S. (1985). Solitons and Excitons in Quasi-One-Dimensional Systems. In: Takeno (1985), 218–223. Davydov, A. S. (1985). Solitons in Molecular Systems. D. Reidel Pub. Co., Boston. DeArmond, M. K. and K. W. Hanck (1984). Switching and Charge Storage in Transition Metal Complexes—Smart Molecules In: IEEE COMPCON Conference Proceedings, 115–118. Deutsch, D. (1982). Is There a Fundamental Bound on the Rate at Which Information Can Be Processed Phys. Rev. Lett., 48(4), 25 Jan., 286– 288. Deutsch, D. (1985). Quantum Theory, the Church-Turing Principle and the Universal Quantum Computer. Proc. R. Soc. Lond. A, 400, 97–117. Deutsch, D. (1985). Quantum Theory as a Universal Physical Theory. Int. J. Theor. Phys., 24(1), 1–41. DeVault, D. (1984). Quantum-Mechanical Tunneling in Biological Systems. Cambridge University Press. Erber, T. and S. Putterman (1985). Randomness in Quantum Mechanics—Natures Ultimate Cryptogram Nature, 318(7), Nov., 41–43. Erber, T., T. M. Rynne, W. F. Darsow and M. J. Frank (1983). The Simulation of Random Processes on Digital Computers: Unavoidable Order. J. Computational Physics, 49, 394–419. Feynman, R. P. (1982). Simulating Physics With Computers. Int. J. Theor. Phys., 21(6/7), 467–488. Feynman, R. P. (1985a). Quantum Mechanical Computers. Optics News, Feb., 11–20. Feynman, R. P. (1985c). Quantum Mechanical Computing. A talk for a meeting of the Cal. Tech. Society of Physics Students on March 12. Feynman, R. P. (1986a). Quantum Mechanical Computers. Foundations of Physics, 16(6), 507–531. Fredkin, E. and T. Toffoli (1982). Conservative Logic. Internat. J. Theoret. Phys., 21, 219–253. Freiser, M. J. and P. M. Marcus (1969). A Survey of Some Physical Limitations on Computer Elements. IEEE Tran. Magnetics, 5(2), 82–90. Goto, E. and T. Soma (1986). Quantum Flux Parametron Paves Way to Superhigh-Speed Computers. JEE, May, 62–65. Huang, G. M., T. J. Tarn and J. W. Clark (1983). On the Controllability of Quantum-Mechanical Systems. J. Math. Phys., 24, Nov., 2608–2618. IBM (1985f). Quantum Public Key Distribution System. IBM Tech. Discl. Bulletin, 28(7), December, 3153–3163. Keyes, R. W. (1969). Physical Problems and Limits in Computer Logic. IEEE Spectrum, May, 36–45. Keyes, R. W. (1970). Power Dissipation in Information Processing. Science, 168, 796–802.
Bibliography 263 Keyes, R. W. (1972). Physical Problems of Small Structures in Electronics. Proc. IEEE, 60(9), 1055–1062. Keyes, R. W. (1975). Physical Limits in Digital Electronics. Proc. IEEE, 63(5), 740–766. Keyes, R. W. and R. Landauer (1970). Minimal Energy Dissipation in Logic. IBM J. Res. Dev., 14, 152–157. Landauer, R. (1961). Irreversibility and Heat Generation in the Computing Process. IBM J. Res. and Dev., July, 183–191. Landauer, R. (1982). Uncertainty Principle and Minimal Energy Dissipation in the Computer. Internat. J. Theoret. Phys., 21, 283–297. Landauer, R. (1986). Computation and Physics: Wheeler’s Meaning Circuit Foundations of Physics, 16(6), 551–564. Likharev, K. K. (1982). Classical and Quantum Limitations on Energy Consumption in Computation. Int. J. Theor. Phys., 21(3/4), 311–326. Maddox, J. (1985a). Monitoring Quantum Jumps. Nature, 314, April, 493. Maddox, J. (1985b). Towards the Quantum Computer. Nature, 316, August, 573. McClaire, W. F. (1971). Chemical Machines, Maxwell’s Demon and Living Organisms. J. Theor. Biol., 30, 1–34. Moracsik, M. J. (1986). Detecting “Secret” Quantum Numbers. Phys. Rev. Lett., 56(9), March, 908–911. Ong, C. K., G. M. Huang, T. J. Tarn and J. W. Clark (1984). Invertibility of Quantum-Mechanical Control Systems. Math. Sys. Theory, 17, 335–350. Peres, A. (1985). Reversible Logic and Quantum Computers. Phys. Rev. A, 32(6), 3266–3276. Peres, A. (1986). Existence of “Free Will” as a Problem of Physics. Foundations of Physics, 16(6), 573–584. Porod, W., R. O. Grondin, D. K. Ferry and G. Porod (1984). Dissipation in Computation. Phys. Rev. Lett., 52(3), 232–235. Reiss, H. and C. Huang (1971). Statistical Thermodynamic Formalism in the Solution of Information Theory Problems. J. Stat. Phys., 3, 191–210. Simon, J. (1978). The Limit of Computing Speed. Comm. ACM, 21(10), October, 876–877. Stroscio, M. A. (1986a). Quantum-Based Electronic Devices. Superlattices and Microstructures, 2(1), 45–47. Stroscio, M. A. (1986b). Comment on ‘Microchips as Precision Quantum- Electrodynamic Probes.’ Phys. Rev. Lett., 56(19), May, 2107. Yates, F. E. (1984) Report on Conference on Chemically-Based Computer Designs. Krump Institute for Medical Engineering Report CIME TR/84/1, University of California, Los Angeles, California 90024.
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ULTIMATE COMPUTING 1 ULTIMATE COMPU
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Contents 3 4.3.7 Parallelism, Colle
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Prelude 5 0 Prelude What is this bo
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Toward Ultimate Computing 7 1 Towar
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Toward Ultimate Computing 9 Edmund
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Toward Ultimate Computing 11 Figure
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Toward Ultimate Computing 13 increa
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Toward Ultimate Computing 15 1.3.2
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Toward Ultimate Computing 17 in the
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Toward Ultimate Computing 21 (1981)
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Toward Ultimate Computing 25 A meth
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P Toward Ultimate Computing 27 a la
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Toward Ultimate Computing 29 will b
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Brain/Mind/Computer 33 2 Brain/Mind
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Brain/Mind/Computer 35 and organiza
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Brain/Mind/Computer 37 consciousnes
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Brain/Mind/Computer 39 lend itself
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Brain/Mind/Computer 41 2.2.9 Neural
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Brain/Mind/Computer 43 coherent ref
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Brain/Mind/Computer 45 transmitting
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Origin and Evolution of Life 47 3 O
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Origin and Evolution of Life 49 con
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Origin and Evolution of Life 51 of
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Origin and Evolution of Life 53 inf
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Origin and Evolution of Life 55 Fig
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Origin and Evolution of Life 57 cen
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From Brain to Cytoskeleton 59 4 Fro
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From Brain to Cytoskeleton 61 “gr
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From Brain to Cytoskeleton 63 Figur
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From Brain to Cytoskeleton 65 digit
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From Brain to Cytoskeleton 67 ... W
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From Brain to Cytoskeleton 69 impli
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From Brain to Cytoskeleton 71 preco
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From Brain to Cytoskeleton 73 Figur
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From Brain to Cytoskeleton 75 abili
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From Brain to Cytoskeleton 77 4.3.7
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From Brain to Cytoskeleton 79 lead,
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Cytoskeleton/Cytocomputer 81 Figure
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Cytoskeleton/Cytocomputer 85 within
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Cytoskeleton/Cytocomputer 87 dense
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Cytoskeleton/Cytocomputer 93 and ov
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Cytoskeleton/Cytocomputer 99 posses
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Cytoskeleton/Cytocomputer 101 Figur
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Cytoskeleton/Cytocomputer 105 actin
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Cytoskeleton/Cytocomputer 109 can u
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Cytoskeleton/Cytocomputer 117 throu
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Cytoskeleton/Cytocomputer 119 paral
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Cytoskeleton/Cytocomputer 121 prope
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Cytoskeleton/Cytocomputer 123 retra
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Cytoskeleton/Cytocomputer 125 the m
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Cytoskeleton/Cytocomputer 127 combi
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Protein Conformational Dynamics 129
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Anesthesia: Another Side of Conscio
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Models of Cytoskeletal Computing 15
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Viruses/Ambiguous Life Forms 185 Fi
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Viruses/Ambiguous Life Forms 187 Fi
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Viruses/Ambiguous Life Forms 189 to
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NanoTechnology 191 micromanipulator
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NanoTechnology 193 Figure 10.2: Nan
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NanoTechnology 195 Figure 10.3: Mul
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NanoTechnology 197 Figure 10.5: STM
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NanoTechnology 199 finger tips to r
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NanoTechnology 201 increased optica
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NanoTechnology 203 A system akin to
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NanoTechnology 205 driving system o
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NanoTechnology 207 Figure 10.14: Co
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NanoTechnology 209 Figure 10.16: Th
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Page 215 and 216: NanoTechnology 215 10.7 Replicating
Page 217 and 218: The Future of Consciousness 217 11
Page 219 and 220: Bibliography 219 12 Bibliography Aa
Page 221 and 222: Bibliography 221 Barra H. S., C. A.
Page 223 and 224: Bibliography 223 Careri, G., U. Buo
Page 225 and 226: Bibliography 225 Dafu, D. and X. Ji
Page 227 and 228: Bibliography 227 Eckert, R., Y. Nai
Page 229 and 230: Bibliography 229 Fröhlich, H. (198
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Page 241 and 242: Bibliography 241 Robinson, A. L. (1
Page 243 and 244: Bibliography 243 Shimizu, H. and H.
Page 245 and 246: Bibliography 245 Preparations: Phos
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Page 257 and 258: Bibliography 257 Muralt, P. and D.
Page 259 and 260: Bibliography 259 Myhill, J. (1964).
Page 261: Bibliography 261 12.6 Quantum Compu
Page 265 and 266: Bibliography 265 beta tubulin, 7, 8
Page 267 and 268: Bibliography 267 dipole interaction
Page 269 and 270: Bibliography 269 129, 133, 136, 144
Page 271 and 272: Bibliography 271 Ramon y Cajal, 67
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