1. [Pfau-Spälter-Kurtsiefer-(+2) 94]: T. Pfau, S. Spälter, C. Kurtsiefer, C. Ekstrom & J. Mlynek, "Loss of spatial coherence by a single spontaneous emission", Phys. Rev. Lett. 73, 9, 1223-1226 (1994).
  2. [Pfau-Kurtsiefer-Mlynek 96]: T. Pfau, C. Kurtsiefer, & J. Mlynek, "Double-slit experiments with correlted atom-photon states", Quantum Semiclass. Opt. 8, 3, 665-671 (1996).
  3. [Philipp-Hess 02]: W. Philipp, & K. Hess, "A local mathematical model for EPR-experiments", quant-ph/0212085.
  4. [Philippidis-Dewdney-Hiley 79]: C. Philippidis, C. Dewdney, & B. J. Hiley, "Quantum interference and the quantum potential", Nuovo Cimento B 52, 1, 15-28 (1979).
  5. [Phipps 00]: T. E. Phipps, Jr., "Book review. The genius of science: A portrait gallery of 20th century physicists", Found. Phys. 30, 8, 1321-1323 (2000). Review of [Pais 00].
  6. [Physics World 99]: Pysics World, "First for single photons", Phys. World 12, 8, 5 (1999). See [Nogues-Rauschenbeutel-Osnaghi-(+3) 99].
  7. [Phoenix 93]: S. J. D. Phoenix, "Quantum cryptography without conjugate coding", Phys. Rev. A 48, 1, 96-102 (1993).
  8. [Phoenix-Barnett 93]: S. J. D. Phoenix, & S. M. Barnett, "Non-local interatomic correlations in the micromaser", J. Mod. Opt. 40, 6, 979-983 (1993).
  9. [Phoenix-Barnett-Townsend-Blow 95]: S. J. D. Phoenix, S. M. Barnett, P. D. Townsend, & K. J. Blow, "Multi-user quantum cryptography on optical networks", J. Mod. Opt. 42, 6, 1155-1163 (1995). See [Townsend-Smith 93], [Townsend-Blow 93], [Townsend-Phoenix-Blow-Barnett 94], [Barnett-Phoenix 94].
  10. [Phoenix-Townsend 95]: S. J. D. Phoenix, & P. D. Townsend, "Quantum cryptography: How to beat the code breakers using quantum mechanics", Contemp. Phys. 36, 3, 165-195 (1995).
  11. [Phoenix-Barnett 98]: S. J. D. Phoenix, & S. M. Barnett, "Method for key distribution using quantum cryptography", patent US5764765, 1998.
  12. [Phoenix-Barnett-Chefles 00]: S. J. D. Phoenix, S. M. Barnett, & A. Chefles, "Three-state quantum cryptography", in V. Buzzek, & D. P. DiVincenzo (eds.), J. Mod. Opt. 47, 2-3 (Special issue: Physics of quantum information), 507-516 (2000).
  13. [Piccioni-Mehlhop-Wright 93]: O. Piccioni, W. Mehlhop, & B. Wright, "The EPR without Bell Inequalities", in A. van der Merwe, & F. Selleri (eds.), Bell's theorem and the foundations of modern physics. Proc. of an international conference (Cesena, Italy, 1991), World Scientific, Singapore, 1993, pp. 375-387.
  14. [Piechocinska 00]: B. Piechocinska, "Information erasure", Phys. Rev. A 61, 6, 062314 (2000).
  15. [Piermarocchi-Chen-Sham-Steel 02]: C. Piermarocchi, P. Chen, L. J. Sham, & D. G. Steel, "Optical RKKY interaction between charged semiconductor quantum dots", Phys. Rev. Lett. 89, 16, 167402 (2002).
  16. [Pines 93]: D. Pines, "David Bohm 1917-92", Phys. World 6, 3, 67 (1993).
  17. [Pinkse-Fischer-Maunz-Rempe 00]: P. W. H. Pinkse, T. Fischer, P. Maunz, & G. Rempe, "Trapping an atom with single photons", Nature 404, 6776, 365-368 (2000). See [Zoller 00].
  18. [Piotrowski-Sladkowski 01]: E. W. Piotrowski, & J. Sladkowski, "Quantum bargaining games", quant-ph/0106140.
  19. [Piotrowski-Sladkowski 02]: E. W. Piotrowski, & J. Sladkowski, "Trading by quantum rules-Quantum anthropic principle", quant-ph/0201045.
  20. [Pipkin 78]: F. M. Pipkin, "Atomic physics tests of the basic concepts in quantum mechanics", in D. R. Bates, & B. Bederson (eds.), Advances in Atomic and Molecular Physics, Academic Press, New York, 1978, vol. 14, pp. 281-340.
  21. [Pirandola-Mancini-Vitali-Tombesi 03 a]: S. Pirandola, S. Mancini, D. Vitali, & P. Tombesi, "Continuous variable entanglement by radiation pressure", quant-ph/0302017.
  22. [Pirandola-Mancini-Vitali-Tombesi 03 b]: S. Pirandola, S. Mancini, D. Vitali, & P. Tombesi, "Continuous variable entanglement and quantum state teleportation between optical and macroscopic vibrational modes through radiation pressure", quant-ph/0309078.
  23. [Pirandola-Mancini-Vitali-Tombesi 03 c]: S. Pirandola, S. Mancini, D. Vitali, & P. Tombesi, "Light reflection upon a movable mirror as a paradigm for continuous variable teleportation network", in R. Bonifacio, B. G. Englert, & M. G. A. Paris (eds.), Mysteries, Puzzles and Paradoxes in Quantum Mechanics (Garda Lake, Italy, 2003), J. Mod. Opt.; quant-ph/0311186.
  24. [Piron 72]: C. Piron, "Survey of general quantum physics", Found. Phys. 2, 4, 287-314 (1972). Reprinted in [Hooker 75], pp. 513-544.
  25. [Piron 76]: C. Piron, Foundations of quantum physics, Addison-Wesley, Reading, Massachusetts, 1976.
  26. [Pironio 03]: S. Pironio, "Violations of Bell inequalities as lower bounds on the communication cost of non-local correlations", quant-ph/0304176.
  27. [Pitowsky 82 a]: I. Pitowsky, "Resolution of the Einstein-Podolsky-Rosen and Bell paradoxes", Phys. Rev. Lett. 48, 19, 1299-1302 (1982). Comments: [Mermin 82], [Macdonald 82]. Reply: [Pitowsky 82 b].
  28. [Pitowsky 82 b]: I. Pitowsky, "Pitowsky responds", Phys. Rev. Lett. 49, 16, 1216 (1982). Reply to [Mermin 82], [Macdonald 82]. See [Pitowsky 82 a].
  29. [Pitowsky 82 c]: I. Pitowsky, "Substitution and truth in quantum logic", Philos. Sci. 49, 3, 380-401 (1982).
  30. [Pitowsky 83 a]: I. Pitowsky, "Deterministic model of spin and statistics", Phys. Rev. D 27, 10, 2316-2326 (1983).
  31. [Pitowsky 83 b]: I. Pitowsky, "The logic of fundamental processes, non measurable sets and quantum mechanics", Ph. D. thesis, University of Western Ontario, 1983.
  32. [Pitowsky 85]: I. Pitowsky, "Quantum mechanics and value definiteness", Philos. Sci. 52, 154-156 (1985).
  33. [Pitowsky 86 a]: I. Pitowsky, "A phase space model of quantum mechanics in which all operator commute", in L. M. Roth, & A. Inomata (eds.), Fundamental questions in quantum mechanics, Gordon and Breach, New York, 1986, pp. 241-252.
  34. [Pitowsky 86 b]: I. Pitowsky, "The range of quantum probability", . J. Math. Phys. 27, ?, 1556-1565 (1986).
  35. [Pitowsky 89 a]: I. Pitowsky, Quantum probability-quantum logic, Springer-Verlag, Berlin, 1989.
  36. [Pitowsky 89 b]: I. Pitowsky, "From George Boole to John Bell-The origins of Bell's inequality", in M. Kafatos (ed.), Bell's theorem, quantum theory, and conceptions of the universe. Proc. of a workshop (George Mason University, 1988), Kluwer Academic, Dordrecht, Holland, 1989, pp. 37-49.
  37. [Pitowsky 91 a]: I. Pitowsky, "Bohm's quantum potential and quantum gravity", Found. Phys. 21, ?, 343-352 (1991).
  38. [Pitowsky 91 b]: I. Pitowsky, "The relativity of quantum predictions", Phys. Lett. A 156, 3-4, 137-139 (1991). Comment: [Herbut 92]. See [Pitowsky 92].
  39. [Pitowsky 91 c]: I. Pitowsky, "Correlation polytopes: Their geometry and complexity", Math. Program. A 50, 395-414 (1991).
  40. [Pitowsky 92]: I. Pitowsky, "Reply to Herbut's comment on `The relativity of quantum predictions' ", Phys. Lett. A 166, 3-4, 292 (1992). Reply to [Herbut 92]. See [Pitowsky 91 b].
  41. [Pitowsky 94]: I. Pitowsky, `George Boole's "Conditions of Possible Experience" ', Brit. J. Philos. Sci. 45, ?, 95-125 (1994).
  42. [Pitowsky 98 a]: I. Pitowsky, "Infinite and finite Gleason's theorems and the logic of indeterminacy", J. Math. Phys. 39, 1, 218-228 (1998).
  43. [Pitowsky 98 b]: I. Pitowsky, "Constructive quantum mechanics, Gleason's theorem and the indeterminacy relations", Tatra Mountains Mathematical Publications 15, 1-10 (1998).
  44. [Pitowsky 98 c]: I. Pitowsky, "Feasible histories, maximum entropy and a MinMax choice criterion", Phys. Lett. A 247, 1-2, 9-13 (1998).
  45. [Pitowsky-Svozil 00]: I. Pitowsky, & K. Svozil, "Boole-Bell type inequalities for the Greenberger-Horne-Zeilinger and 3-3 cases", quant-ph/0011060.
  46. [Pitowsky-Svozil 01]: I. Pitowsky, & K. Svozil, "Optimal tests of quantum nonlocality", Phys. Rev. A 64, 1, 014102 (2001).
  47. [Pitowsky 02 a]: I. Pitowsky, "Range theorems for quantum probability and entanglement", in A. Khrennikov (ed.), Quantum Theory: Reconsideration of Foundations (Växjö, Sweden, 2001), Växjö University Press, Växjö, Sweden, 2002, pp. 299-308; quant-ph/0112068.
  48. [Pitowsky 02 b]: I. Pitowsky, "Quantum speed-up of computations", Philos. Sci. 69, S168-S177 (2002).
  49. [Pitowsky 02 c]: I. Pitowsky, "Most Bell operators do not significantly violate locality", quant-ph/0202053.
  50. [Pitowsky 02 d]: I. Pitowsky, "Betting on the outcomes of measurements: A bayesian theory of quantum probability" (2002), quant-ph/0208121, PITT-PHIL-SCI00000766.
  51. [Pittenger 99]: A. O. Pittenger, An introduction to quantum computing algorithms, Birkhauser, Berlin, 1999.
  52. [Pittenger-Rubin 00 a]: A. O. Pittenger, & M. H. Rubin, "Separability and Fourier representations of density matrices", Phys. Rev. A 62, 3, 032313 (2000); quant-ph/9912116.
  53. [Pittenger-Rubin 00 b]: A. O. Pittenger, & M. H. Rubin, "Complete separability and Fourier representations of n-qubit states", Phys. Rev. A 62, 4, 042306 (2000).
  54. [Pittenger-Rubin 00 c]: A. O. Pittenger, & M. H. Rubin, "Separability and Fourier representations of density matrices", quant-ph/0001014.
  55. [Pittenger-Rubin 00 d]: A. O. Pittenger, & M. H. Rubin, "Note on separability of the Werner states in arbitrary dimensions", quant-ph/0001110.
  56. [Pittenger-Rubin 02]: A. O. Pittenger, & M. H. Rubin, "Convexity and the separability problem of quantum mechanical density matrices", Linear Algebra Appl. 346, 47-71 (2002); quant-ph/0103038.
  57. [Pittenger-Rubin 03 a]: A. O. Pittenger, & M. H. Rubin, "Geometry of entanglement witnesses and local detection of entanglement", Phys. Rev. A 67, 1, 012327 (2003).
  58. [Pittenger-Rubin 03 b]: A. O. Pittenger, & M. H. Rubin, "Mutually unbiased bases, generalized spin matrices and separability", quant-ph/0308142.
  59. [Pittman-Shih-Sergienko-Rubin 95]: T. B. Pittman, Y. H. Shih, A. V. Sergienko, & M. H. Rubin, "Experimental tests of Bell's inequalities based on space-time and spin variables", Phys. Rev. A 51, 5, 3495-3498 (1995).
  60. [Pittman 95]: T. B. Pittman, "On the use of double entanglement in four-photon experiments", Phys. Lett. A 204, 3-4, 193-197 (1995).
  61. [Pittman-Shih-Strekalov-Sergienko 95]: T. B. Pittman, Y. H. Shih, D. V. Strekalov, & A. V. Sergienko, "Optical imaging by means of two-photon quantum entanglement", Phys. Rev. A 52, 5, R3429-R3432 (1995).
  62. [Pittman-Strekalov-Migdall-(+3) 96]: T. B. Pittman, D. V. Strekalov, A. Migdall, M. H. Rubin, A. V. Sergienko, & Y. H. Shih, "Can two-photon interference be considered the interference of two photons?", Phys. Rev. Lett. 77, 10, 1917-1920 (1996).
  63. [Pittman-Shih-Strekalov-(+2) 96]: T. B. Pittman, Y. H. Shih, D. V. Strekalov, A. V. Sergienko, & M. H. Rubin, "Multi-particle interferometry based on double entangled states", in D. Han, K. Peng, Y. S. Kim, & V. I. Man'ko (eds.), 4th Int. Conf. on Squeezed States and Uncertainty Relations (Taiyuan, Shanxi, China, 1995), NASA, Greenbelt, Maryland, 1996, pp. 139-144.
  64. [Pittman-Jacobs-Franson 01 a]: T. B. Pittman, B. C. Jacobs, & J. D. Franson, "Probabilistic quantum logic operations using polarizing beam splitters", Phys. Rev. A 64, 6, 062311 (2001); quant-ph/0107091.
  65. [Pittman-Jacobs-Franson 01 b]: T. B. Pittman, B. C. Jacobs, & J. D. Franson, "Demonstration of non-deterministic quantum logic operations using linear optical elements", quant-ph/0109128.
  66. [Pittman-Jacobs-Franson 02 a]: T. B. Pittman, B. C. Jacobs, & J. D. Franson, "Single photons on pseudodemand from stored parametric down-conversion ", Phys. Rev. A 66, 4, 042303 (2002).
  67. [Pittman-Jacobs-Franson 02 b]: T. B. Pittman, B. C. Jacobs, & J. D. Franson, "Demonstration of feed-forward control for linear optics quantum computation", Phys. Rev. A 66, 5, 052305 (2002); quant-ph/0204142.
  68. [Pittman-Franson 02]: T. B. Pittman, & J. D. Franson, "Cyclical quantum memory for photonic qubits", Phys. Rev. A 66, 6, 062302 (2002).
  69. [Pittman-Franson 03]: T. B. Pittman, & J. D. Franson, "Violation of Bell's inequality with photons from independent sources", Phys. Rev. Lett. 90, 24, 240401 (2003); quant-ph/0301169.
  70. [Pittman-Fitch-Jacobs-Franson 03]: T. B. Pittman, M. J. Fitch, B. C Jacobs, & J. D. Franson, "Experimental controlled-NOT logic gate for single photons in the coincidence basis", Phys. Rev. A 68, 3, 032316 (2003); quant-ph/0303095.
  71. [Pittman-Donegan-Fitch-(+5) 03]: T. B. Pittman, M. M. Donegan, M. J. Fitch, B. C. Jacobs, J. D. Franson, P. Kok, H. Lee, & J. P. Dowling, "Heralded two-photon entanglement from probabilistic quantum logic operations on multiple parametric down-conversion sources", quant-ph/0303113.
  72. [Pittman-Jacobs-Franson 03]: T. B. Pittman, B. C. Jacobs, & J. D. Franson, "Probabilistic quantum encoder for single-photon qubits", submitted to Phys. Rev. A; quant-ph/0312097.
  73. [Plaga 00]: R. Plaga, `An extension of "Popper's experiment" can test interpretations of quantum mechanics', Found. Phys. Lett. 13, 5, 461-476 (2000); quant-ph/0010030.
  74. [Planck 00]: M. Planck, "Zur Theorie der Gesetzes der Energieverteilung im Normalspektrum", Verhandlungen der Deutschen Physikalischen Gesellschaft 2, 237-245 (1900).
  75. [Planck 48]: M. Planck, Wissenschaftliche Selbstbiographie, ?, ?, ?. English version: Scientific autobiography and other papers, Greenwood Press, London, 1948. Spanish version: Autobiografía científica y últimos escritos, Nivola Ediciones, Madrid, 2000.
  76. [Planck 69]: M. Planck, Die Quantenhypothese, Dokumente der Naturwissenschaft, Ernst Battenberg Verlag, München, 1969.
  77. [Plastina-Fazio-Palma 01]: F. Plastina, R. Fazio, & G. M. Palma, "Macroscopic entanglement in Josephson nanocircuits", Phys. Rev. B 64, 11, 113306 (2001).
  78. [Plastina-Falci 03]: F. Plastina, & G. Falci, "Communicating Josephson qubits", Phys. Rev. B 67, 22, 224514 (2003).
  79. [Plastino-Casas-Plastino 01]: A. R. Plastino, M. Casas, & A. Plastino, "Bohmian quantum theory of motion for particles with position-dependent effective mass", Phys. Lett. A 281, 5-6, 297-304 (2001).
  80. [Plastino-Rigo-Casas-(+2) 02]: A. R. Plastino, A. Rigo, M. Casas, F. Garcías & A. Plastino, "Aplicación del formalismo mecánico cuántico supersimétrico a sistemas con masa efectiva dependiente de la posición", in C. Mataix, & A. Rivadulla (eds.), Física cuántica y realidad. Quantum physics and reality (Madrid, 2000), Editorial Complutense, Madrid, 2002, pp. 345-355.
  81. [Platt 92]: D. E. Platt, "A modern analysis of the Stern-Gerlach experiment", Am. J. Phys. 60, 4, 306-308 (1992).
  82. [Platzman-Dykman 99]: P. M. Platzman, & M. I. Dykman, "Quantum computing with electrons floating on liquid helium", Science 284, 5422, 1967-1969 (1999).
  83. [Plenio-Knight 96]: M. B. Plenio, & P. L. Knight, "Realistic lower bounds for the factorization time of large numbers on a quantum computer", Phys. Rev. A 53, 5, 2986-2990 (1996). See [Plenio-Knight 97].
  84. [Plenio-Vedral-Knight 96]: M. B. Plenio, V. Vedral, & P. L. Knight, "Computers and communication in the quantum world", Phys. World 9, 10, 19-20 (1996).
  85. [Plenio-Vedral-Knight 97 a]: M. B. Plenio, V. Vedral, & P. L. Knight, "Quantum error correction in the presence of spontaneous emission", Phys. Rev. A 55, 1, 67-71 (1997).
  86. [Plenio-Vedral-Knight 97 b]: M. B. Plenio, V. Vedral, & P. L. Knight, "Conditional generation of error syndromes in fault-tolerant error correction", Phys. Rev. A 55, 6, 4593-4596 (1997); quant-ph/9608028.
  87. [Plenio-Knight 97 a]: M. B. Plenio, & P. L. Knight, "Decoherence limits to quantum factoring", in M. Ferrero, & A. van der Merwe (eds.), New developments on fundamental problems in quantum physics (Oviedo, Spain, 1996), Kluwer Academic, Dordrecht, Holland, 1997, pp. 311-316. See [Plenio-Knight 96, 97 b].
  88. [Plenio-Knight 97 b]: M. B. Plenio, & P. L. Knight, "Decoherence limits to quantum computation using trapped ions", Proc. R. Soc. Lond. A 453, 1965, 2017-2041 (1997). See [Plenio-Knight 96, 97 a].
  89. [Plenio 98]: M. B. Plenio, "Quantum optics", Contemp. Phys. 39, 2, 137-139 (1998). Review of [Scully-Zubairy 97].
  90. [Plenio-Vedral 98]: M. B. Plenio, & V. Vedral, "Teleportation, entanglement and thermodynamics in the quantum world", Contemp. Phys. 39, 6, 431-446 (1998). See quant-ph/9804075.
  91. [Plenio-Fernández Huelga-Beige-Knight 98]: M. B. Plenio, S. G. Fernández Huelga, A. Beige, & P. L. Knight, "Cavity loss induced generation of entangled atoms", quant-ph/9811003.
  92. [Plenio 99]: M. B. Plenio, "The Holevo bound and Landauer's principle", Phys. Lett. A 263, 4-6, 281-284 (1999); quant-ph/9910086.
  93. [Plenio-Virmani-Papadopoulos 00]: M. B. Plenio, S. Virmani, & P. Papadopoulos, "Operator monotones, the reduction criterion and the relative entropy", J. Phys. A 33, 22, L193-L197 (2000); quant-ph/0002075.
  94. [Plenio 00 a]: M. B. Plenio, "Quantum mechanics II", lecture notes, Imperial College, London, 2000; http://www.lsr.ph.ic.ac.uk/TQO/People/Plenio/lectures.ps.
  95. [Plenio 00 b]: M. B. Plenio, "Equivalent classes of closed three-level systems", Phys. Rev. A 62, 1, 015802 (2000); quant-ph/0103109.
  96. [Plenio-Vitelli 01]: M. B. Plenio, & V. Vitelli, "The physics of forgetting: Landauer's erasure principle and information theory", Contemp. Phys. 42, 1, 25-60 (2001); quant-ph/0103108.
  97. [Plenio-Vedral 01]: M. B. Plenio, & V. Vedral, "Bounds on relative entropy of entanglement for multi-party systems", in S. Popescu, N. Linden, & R. Jozsa (eds.), J. Phys. A 34, 35 (Special issue: Quantum information and computation), 6997-7002 (2001); quant-ph/0010080.
  98. [Plenio-Fernández Huelga 02]: M. B. Plenio, & S. G. Fernández Huelga, "Entangled light from white noise", Phys. Rev. Lett. 88, 19, 197901 (2002), quant-ph/0110009.
  99. [Plesch-Buzzek 03 a]: M. Plesch, & V. Buzzek, "Entangled graphs: Bipartite entanglement in multiqubit systems", Phys. Rev. A 67, 1, 012322 (2003); quant-ph/0211020.
  100. [Plesch-Buzzek 03 b]: M. Plesch, & V. Buzzek, "Entangled graphs. II. Classical correlations in multi-qubit entangled systems", Phys. Rev. A 68, 1, 012313 (2003); quant-ph/0306001.
  101. [Plesch-Novotny-Dzurakova-Buzzek 03 b]: M. Plesch, J. Novotny, Z. Dzurakova, & V. Buzzek, "Controlling bi-partite entanglement in multi-qubit systems", J. Phys. A; quant-ph/0311069.
  102. [Plotnitsky 03]: A. Plotnitsky, "Mysteries without mysticism and correlations without correlata: On quantum knowledge and knowledge in general Found. Phys. 33, 11, 1649-1689 (2003).
    103. |Домой|