1. [Miao 00 a]: X. Miao, "Universal construction of quantum computational networks in superconducting Josephson junctions", quant-ph/0003113.
  2. [Miao 00 b]: X. Miao, "A convenient method to prepare the effective pure state in a quantum ensemble", quant-ph/0008094.
  3. [Miao 01 a]: X. Miao, "Universal construction for the unsorted quantum search algorithms", quant-ph/0101126.
  4. [Miao 01 b]: X. Miao, "A polynomial-time solution to the parity problem on an NMR quantum computer", quant-ph/0108116.
  5. [Michler-Mattle-Weinfurter-Zeilinger 96]: M. Michler, K. Mattle, H. Weinfurter, & A. Zeilinger, "Interferometric Bell-state analysis", Phys. Rev. A 53, 3, R1209-R1212 (1996).
  6. [Michler-Weinfurter-Żukowski 00]: M. Michler, H. Weinfurter, & M. Żukowski, "Experiments towards falsification of noncontextual hidden variable theories", Phys. Rev. Lett. 84, 24, 5457-5461 (2000); quant-ph/0009061.
  7. [Michler-Kiraz-Becher-(+5) 00]: P. Michler, A. Kiraz, C. Becher, W. V. Schoenfeld, P. M. Petroff, L. Zhang, E. Hu, & A. Imamoglu, "A quantum dot single-photon turnstile device", Science 290, 5500, 2282-2285 (2000). See [Benjamin 00 b].
  8. [Mielnik 68]: B. Mielnik, "Geometry of quantum states", Com. Math. Phys. 9, 55-80 (1968).
  9. [Mielnik 00]: B. Mielnik, `Comments on: "Weinberg's nonlinear quantum mechanics and Einstein-Podolsky-Rosen paradox", by Joseph Polchinski', quant-ph/0012041. Comment on [Polchinski 91].
  10. [Mielnik 01]: B. Mielnik, "Nonlinear quantum mechanics: A conflict with the Ptolomean structure?", Phys. Lett. A 289, 1-2, 1-8 (2001).
  11. [Migdall 99]: A. Migdall, "Correlated-photon metrology without absolute standards", Phys. Today 52, 1, 41-? (1999).
  12. [Migdall-Branning-Castelletto 02]: A. L. Migdall, D. Branning, & S. Castelletto, "Tailoring single-photon and multiphoton probabilities of a single-photon on-demand source", Phys. Rev. A 66, 5, 053805 (2002).
  13. [Migliore-Messina 03]: R. Migliore, & A. Messina, "Quantum superpositions of clockwise and counterclockwise supercurrent states in the dynamics of an rf-SQUID exposed to a quantized electromagnetic field", Phys. Rev. B 67, 13, 134505 (2003).
  14. [Migliore-Konstadopoulou-Vourdas-(+2) 03]: R. Migliore, A. Konstadopoulou, A. Vourdas, T. P. Spiller, & A. Messina, "Entangling gates using Josephson circuits coupled through non-classical microwaves", Phys. Lett. A 319, 1-2, 67-72 (2003).
  15. [Mihara 02]: T. Mihara, "Quantum identification schemes with entanglements", Phys. Rev. A 65, 5, 052326 (2002). Comment: [van Dam 03].
  16. [Milburn 97]: G. J. Milburn, Schrödinger's machines: The quantum technology reshaping everyday life, Freeman, New York, 1997. Review: [Rae 97], [Zeilinger 97 a].
  17. [Milburn 98]: G. J. Milburn, The Feynman processor: Quantum entanglement and the computing revolution, Perseus, Reading, Massachusetts, 1998. Review: [Preskill 99 a], [Leggett 99 b].
  18. [Milburn-Braunstein 99]: G. J. Milburn, & S. L. Braunstein, "Quantum teleportation with squeezed vacuum states", Phys. Rev. A 60, 2, 937-942 (1999); quant-ph/9812018.
  19. [Milburn-Schneider-James 00]: G. J. Milburn, S. Schneider, & D. F. V. James, "Ion trap quantum computing with warm ions", Fortschr. Phys. 48, 9-11 (Special issue: Experimental proposals for quantum computation), 801-810 (2000).
  20. [Milburn 00]: G. J. Milburn, "Quantum computing using a neutral atom optical lattice: An appraisal", Fortschr. Phys. 48, 9-11 (Special issue: Experimental proposals for quantum computation), 957-964 (2000).
  21. [Milburn-Laflamme-Sanders-Knill 02]: G. J. Milburn, R. Laflamme, B. C. Sanders, & E. Knill, "Quantum dynamics of two coupled qubits", Phys. Rev. A 65, 3, 032316 (2002); quant-ph/0112001.
  22. [Militello-Messina-Napoli 01]: B. Militello, A. Messina, & A. Napoli, "Quantum Zeno effect in trapped ions", quant-ph/0102129.
  23. [Militello-Messina-Napoli 03]: B. Militello, A. Messina, & A. Napoli, "Measuring entanglement-induced quantum correlations in the oscillatory motion of a trapped ion", Opt. Spectrosc. 94, 813 (2003).
  24. [Miller 96]: D. J. Miller, "Realism and time symmetry in quantum mechanics", Phys. Lett. A 222, 1-2, 31-36 (1996).
  25. [Miller-Wheeler 84]: W. A. Miller, & J. A. Wheeler, "Delayed-choice experiments and Bohr's elementary quantum phenomenon", in S. Kamefuchi et al. (eds.), Foundations of quantum mechanics in the light of new technology. Proc. of a conference (Kokubunji, Tokyo, 1983), Physical Society of Japan, Tokyo, 1984, pp. 140-151.
  26. [Milman-Ollivier-Raimond 03]: P. Milman, H. Ollivier, & J. M. Raimond, "Universal quantum cloning in cavity QED", Phys. Rev. A 67, 1, 012314 (2003).
  27. [Milman-Ollivier-Yamaguchi-(+3) 03]: P. Milman, H. Ollivier, F. Yamaguchi, M. Brune, J. M. Raimond, & S. Haroche, "Simple quantum information algorithms in cavity QED", in M. Ferrero (ed.), Proc. of Quantum Information: Conceptual Foundations, Developments and Perspectives (Oviedo, Spain, 2002), J. Mod. Opt. 50, 6-7, 901-913 (2003).
  28. [Milman-Mosseri 03]: P. Milman, & R. Mosseri, "Topological phase for entangled two-qubit states", Phys. Rev. Lett. 90, 23, 230403 (2003).
  29. [Milonni 98]: P. W. Milonni, "Quantum optics", Phys. Today 51, 10, 90-92 (1998). Review of [Scully-Zubairy 97].
  30. [Mintert-Wunderlich 01]: F. Mintert, & C. Wunderlich, "Ion-trap quantum logic using long-wavelength radiation", Phys. Rev. Lett. 87, 25, 257904 (2001).
  31. [Miquel-Paz-Perazzo 96]: C. Miquel, J. P. Paz, & R. Perazzo, "Factoring in a dissipative quantum computer", quant-ph/9601021.
  32. [Miquel-Paz-Zurek 97]: C. Miquel, J. P. Paz, & W. H. Zurek, "Quantum computation with phase drift errors", Phys. Rev. Lett. 78, 20, 3971-3974 (1997); quant-ph/9704003.
  33. [Miquel-Paz-Saraceno 02]: C. Miquel, J. P. Paz, & M. Saraceno, "Quantum computers in phase space", Phys. Rev. A 65, 6, 062309 (2002); quant-ph/0204149.
  34. [Miquel-Paz-Saraceno-(+3) 02]: C. Miquel, J. P. Paz, M. Saraceno, E. Knill, R. Laflamme, & C. Negrevergne, "Interpretation of tomography and spectroscopy as dual forms of quantum computation", Nature 417, 6893, 59-62 (2002); quant-ph/0109072.
  35. [Miranowicz-Leonski-Imoto 01]: A. Miranowicz, W. Leonski, & N. Imoto, "Quantum-optical states in finite-dimensional Hilbert space. I. General formalism", in M. W. Evans (ed.), Modern Nonlinear Optics, Advances in Chemical Physics 119 (I), Wiley, New York, 2001, pp. 155-193; quant-ph/0108080.
  36. [Miranowicz-Ozdemir-Liu-(+3) 02]: A. Miranowicz, S. K. Ozdemir, Y.-X. Liu, M. Koashi, N. Imoto, Y. Hirayama, "Generation of maximum spin entanglement induced by a cavity field in quantum-dot systems", Phys. Rev. A 65, 6, 062321 (2002).
  37. [Mirell 94]: S. Mirell, "Correlated photon asymmetry in local realism", Phys. Rev. A 50, 1, 839-842 (1994).
  38. [Mirell-Mirell 99]: S. Mirell, & D. Mirell, "High efficiency interaction-free measurement from continuous wave multi-beam interference", quant-ph/9911076.
  39. [Mirman 79]: R. Mirman, "Nonexistence of superselection rules: Definition of term frame of reference", Found. Phys. 9, 3-4, 283-299 (1979).
  40. [Mirman 85]: R. Mirman, in "Reality and the quantum theory", Phys. Today 38, 11, 15 and 136 (1985). Comment on [Mermin 85].
  41. [Misra 67]: B. Misra, "When can hidden variables be excluded in quantum mechanics?", Nuovo Cimento A 47, 4, 841-859 (1967).
  42. [Misra-Sudarshan 77]: B. Misra, & E. C. G. Sudarshan, "The Zeno's paradox in quantum theory", J. Math. Phys. 18, 4, 756-763 (1977).
  43. [Mista-Filip-Fiurásek 02]: L. Mista, Jr., R. Filip, & J. Fiurásek, "Continuous-variable Werner state: Separability, nonlocality, squeezing, and teleportation", Phys. Rev. A 65, 6, 062315 (2002); quant-ph/0112062.
  44. [Mitchell-Ellenor-Schneider-Steinberg 03]: M. W. Mitchell, C. W. Ellenor, S. Schneider, & A. M. Steinberg, "Diagnosis, prescription, and prognosis of a Bell-state filter by quantum process tomography", Phys. Rev. Lett. 91, 12, 120402 (2003); quant-ph/0305001.
  45. [Mitchell-Lundeen-Steinberg 03]: M. W. Mitchell, J. S. Lundeen, & A. M. Steinberg, "Super-resolving phase measurements with a multi-photon entangled state", quant-ph/0312186.
  46. [Mitchell-Popescu-Roberts 02]: P. Mitchell, S. Popescu, & D. Roberts, "Conditions for the confirmation of three-particle non-locality", quant-ph/0202009.
  47. [Mitchison-Massar 01]: G. Mitchison, & S. Massar, "`Absorption-free discrimination between semitransparent objects", Phys. Rev. A 63, 3, 032105 (2001); quant-ph/0003140.
  48. [Mitchison-Jozsa 01]: G. Mitchison, & R. Jozsa, "Counterfactual computations", Proc. R. Soc. Lond. A 457, 2009, 1175-1193 (2001); quant-ph/9907007.
  49. [Mitchison-Massar-Pironio 01]: G. Mitchison, S. Massar, & S. Pironio, "How many photons are needed to distinguish two transparencies?", quant-ph/0105098.
  50. [Mitchison-Jozsa 03]: G. Mitchison, & R. Jozsa, "Towards a geometrical interpretation of quantum information compression", quant-ph/0309177.
  51. [Mitra 98]: A. Mitra, "Alternative quantum cryptography", quant-ph/9812087.
  52. [Mitra 99]: A. Mitra, "Noised based cipher system", quant-ph/9912072.
  53. [Mitsumori-Vaccaro-Barnett-(+4) 03]: Y. Mitsumori, J. A. Vaccaro, S. M. Barnett, E. Andersson, A. Hasegawa, M. Takeoka, & M. Sasaki, "Experimental demonstration of quantum source coding", quant-ph/0304036.
  54. [Mittelstaedt 78]: P. Mittelstaedt, Quantum logic, Reidel, Dordrecht, 1978.
  55. [Mittelstaedt-Stachow 83]: P. Mittelstaedt, & E. W. Stachow, "Analysis of the Einstein-Podolsky-Rosen experiment by relativistic quantum logic", Int. J. Theor. Phys. 22, 6, 517-540 (1983).
  56. [Mittelstaedt 97]: P. Mittelstaedt, The interpretation of quantum mechanics and the measurement process, Cambridge University Press, Cambridge, 1997.
  57. [Mittelstaedt 98]: P. Mittelstaedt, "Can EPR-correlations be used for the transmission of superluminal signals?", Ann. Phys. 7, 7-8, 710-715 (1998).
  58. [Mittelstaedt 01]: P. Mittelstaedt, "Quantum mechanics without probabilities", in M. Rédei, & M. Stöltzner (eds.), John von Neumann and the foundations of quantum physics, Kluwer Academic, Dordrecht, Holland, 2001, pp. ?-?.
  59. [Mittelstaedt 02]: P. Mittelstaedt, "Universality and consistency in quantum mechanics -New problems of an old theory-", in C. Mataix, & A. Rivadulla (eds.), Física cuántica y realidad. Quantum physics and reality (Madrid, 2000), Editorial Complutense, Madrid, 2002, pp. 197-213.
  60. [Miyake-Wadati 01]: A. Miyake, & M. Wadati, "Geometric strategy for the optimal quantum search", Phys. Rev. A 64, 4, 042317 (2001); quant-ph/0109109.
  61. [Miyake 03]: A. Miyake, "Classification of multipartite entangled states by multidimensional determinants", Phys. Rev. A 67, 1, 012108 (2003).
  62. [Miyake-Verstraete 03]: A. Miyake, & F. Verstraete, "Multipartite entanglement in 2 ×2 ×n quantum systems", quant-ph/0307067.
  63. [Miyake 04]: A. Miyake, "Multipartite entanglement under stochastic local operations and classical communication", EQIS'03, Int. J. Quant. Inf.; quant-ph/0401023.
  64. [Miyauchi 01]: A. Miyauchi, ERATO Workshop on Quantum Information Science (Tokyo, 2001), "Linear order matrix inversion method with help from quantum searching algorithm", quant-ph/0109131.
  65. [Mizel-Mitchell-Cohen 99]: A. Mizel, M. W. Mitchell, & M. L. Cohen, "Ground state quantum computation", quant-ph/9908035.
  66. [Mizel-Mitchell-Cohen 02]: A. Mizel, M. W. Mitchell, & M. L. Cohen, "Scaling considerations in ground-state quantum computation", Phys. Rev. A 65, 2, 022315 (2002); quant-ph/0007001.
  67. [Mizel-Lidar 03]: A. Mizel, & D. A. Lidar, "Exchange interaction between three and four coupled quantum dots: Theory and applications to quantum computing", cond-mat/0302018.
  68. [Mizuno-Fujiwara-Akiba-(+3) 02]: J. Mizuno, M. Fujiwara, M. Akiba, T. Kawanishi, S. M. Barnett, & M. Sasaki, "Optimum detection for extracting maximum information from symmetric qubit sets", Phys. Rev. A 65, 1, 012315 (2002); quant-ph/0106164.
  69. [Mo-Li-Guo 02]: Y.-N. Mo, C.-F. Li, & G.-C. Guo, "Distillation of the Greenberger-Horne-Zeilinger state from arbitrary tripartite states", Phys. Rev. A 65, 2, 024301 (2002).
  70. [Mokarzel-Salgueiro-Nemes 01]: S. G. Mokarzel, A. N. Salgueiro, & M. C. Nemes, "Modelling the recoherence of mesoscopic superpositions in dissipative environments", quant-ph/0106044.
  71. [Moldauer 72]: P. A. Moldauer, "Is there a quantum measurement problem?", Phys. Rev. D 5, 4, 1028-1032 (1972). Comment: [Fine 72 a].
  72. [Moldauer 74]: P. A. Moldauer, "Reexamination of the arguments of Einstein, Podolsky, and Rosen", Found. Phys. 4, 2, 195-205 (1974).
  73. [Mølmer 97]: K. Mølmer, "Quantum entanglement and classical behaviour", J. Mod. Opt. 44, 10 (Special issue: Fundamentals of quantum optics IV), 1937-1956 (1997).
  74. [Mølmer-Sørensen 99]: K. Mølmer, & A. S. Sørensen, "Multi-particle entanglement of hot trapped ions", Phys. Rev. Lett. 82, 9, 1835-1838 (1999); quant-ph/9810040.
  75. [Mølmer-Sørensen 00]: K. Mølmer, & A. S. Sørensen, "RISQ - reduced instruction set quantum computers", J. Mod. Opt.; quant-ph/0004014.
  76. [Mølmer 01]: K. Mølmer, "Counterfactual statements and weak measurements: An experimental proposal", Phys. Lett. A 292, 3, 151-155 (2001); quant-ph/0109042.
  77. [Molnár-Timmermann 03]: L. Molnár, & W. Timmermann, "Isometries of quantum states", J. Phys. A 36, 1, 267-273 (2003).
  78. [Molotkov-Nazin 96]: S. N. Molotkov, & S. S.Nazin, "Quantum cryptography based on the time-energy uncertainty relation", JETP Lett. 63, ?, 924-? (1996). quant-ph/9612013.
  79. [Molotkov 98 a]: S. N. Molotkov, "Quantum teleportation of a single-photon wave packet", Phys. Lett. A 245, 5, 339-344 (1998); quant-ph/9805045.
  80. [Molotkov 98 b]: S. N. Molotkov, "?", JETP Lett. 68, ?, 263-? (1998).
  81. [Molotkov 98 c]: S. N. Molotkov, `Quantum cryptography based on photon "frequency" states: Example of a possible realization', Sov. Phys. JETP 87, 288-293 (1998); quant-ph/9811038.
  82. [Molotkov-Nazin 99 a]: S. N. Molotkov, & S. S. Nazin, "Photon frequency entanglement swapping", Phys. Lett. A 252, 1-2, 1-4 (1999); quant-ph/9810076.
  83. [Molotkov-Nazin 99 b]: S. N. Molotkov, & S. S. Nazin, "?", Zh. Eksp. Teor. Fiz. 116, 777-792 (1999). English version: "On the teleportation of continuous variable", JETP 89, 413-420 (1999); quant-ph/9906018.
  84. [Molotkov-Nazin 99 c]: S. N. Molotkov, & S. S. Nazin, "Unconditionally secure relativistic quantum bit commitment", quant-ph/9911055.
  85. [Molotkov-Nazin 01 a]: S. N. Molotkov, & S. S. Nazin, "A simple proof of the unconditional security of relativistic quantum cryptography", J. Exper. and Theor. Phys. 92, 5, 871-878 (2001); quant-ph/0008008.
  86. [Molotkov-Nazin 01 b]: S. N. Molotkov, & S. S. Nazin, "Relativistic quantum protocols: Bit commitment and coin tossing", JETP 93, ?, 876-? (2001); quant-ph/0012075.
  87. [Molotkov-Nazin 01 c]: S. N. Molotkov, & S. S. Nazin, "Quantum bit commitment in a noisy channel", quant-ph/0101105.
  88. [Molotkov-Nazin 01 d]: S. N. Molotkov, & S. S. Nazin, "Relativistic restrictions on the distinguishability of orthogonal quantum states", quant-ph/0103019.
  89. [Molotkov-Nazin 01 e]: S. N. Molotkov, & S. S. Nazin, "The role of causality in ensuring the ultimate security of relativistic quantum cryptography", JETP Lett. 73, 12, 682-687 (2001); quant-ph/0106046.
  90. [Molotkov 02 a]: S. N. Molotkov, "The efficiency of repeaters based on the Einstein-Podolsky-Rosen effect for quantum cryptography in a damping channel", JETP Lett. 74, ?, 517-? (2002). Erratum: JETP Lett. 75, ?, 210 (2002).
  91. [Molotkov 02 b]: S. N. Molotkov, "Limiting rate of secret-key generation in quantum cryptography in spacetime", JETP Lett. 75, ?, 521-? (2002).
  92. [Molotkov 02 c]: S. N. Molotkov, `Relativistic quantum cryptography on "arrested" photons', JETP Lett. 76, ?, 71-? (2002).
  93. [Molotkov 02 d]: S. N. Molotkov, "Transmission capability of a sequential relativistic quantum communication channel with limited observation time", JETP Lett. 76, 584-? (2002).
  94. [Molotkov 03 a]: S. N. Molotkov, "Real-time coding in a parallel quantum communication channel", JETP Lett. 77, ?, 47-? (2003).
  95. [Molotkov 03 b]: S. N. Molotkov, "Simple delay scheme for quantum cryptography based on a Mach-Zehnder optic fiber interferometer", JETP Lett. 78, ?, 162-? (2003).
  96. [Mompart-Eckert-Ertmer-(+2) 03]: J. Mompart, K. Eckert, W. Ertmer, G. Birkl, & M. Lewenstein, "Quantum computing with spatially delocalized qubits", Phys. Rev. Lett. 90, 14, 147901 (2003).
  97. [Monken-Souto Ribeiro-Pádua 98]: C. H. Monken, P. H. Souto Ribeiro, & S. Pádua, "Optimizing the photon pair collection efficiency: A step toward a loophole-free Bell's inequalities experiment", Phys. Rev. A 57, 4, R2267-R2269 (1998).
  98. [Monroe-Meekhof-King-(+2) 95]: C. Monroe, D. M. Meekhof, B. E. King, W. M. Itano, & D. J. Wineland, "Demonstration of a fundamental quantum logic gate", Phys. Rev. Lett. 75, 25, 4714-4717 (1995). Reprinted in [Macchiavello-Palma-Zeilinger 00], pp. 355-358.
  99. [Monroe-Meekhof-King-Wineland 96]: C. Monroe, D. M. Meekhof, B. E. King, & D. J. Wineland, `A "Schrödinger cat" superposition state of an atom", Science 272, 5265, 1131-1136 (1996).
  100. [Monroe-Leibfried-King-(+3) 97]: C. Monroe, D. Leibfried, B. E. King, D. M. Meekhof, W. M. Itano, & D. J. Wineland, "Simplified quantum logic with trapped ions", Phys. Rev. A 55, 4, R2489-R2491 (1997).
  101. [Monroe 02]: C. Monroe, "Quantum information processing with atoms and photons", Nature 416, 6877, 238-246 (2002).
  102. [Monteoliva-Paz 01]: D. Monteoliva, & J. P. Paz, "Decoherence in a classically chaotic quantum system: Entropy production and quantum-classical correspondence", quant-ph/0106090.
  103. [Montina-Arecchi 98]: A. Montina, & F. T. Arecchi, "Toward an optical evidence of quantum interference between macroscopically distinct states", Phys. Rev. A 58, 5, 3472-3476 (1998).
  104. [Monton 03]: B. Monton, "The problem of ontology for spontaneous collapse theories", PITT-PHIL-SCI00001258.
  105. [Moore-Nilsson 98]: C. Moore, & M. Nilsson, "Some notes on parallel quantum computation", quant-ph/9804034.
  106. [Moore-Nilsson 02]: C. Moore, & M. Nilsson, "Parallel quantum computation and quantum codes", Siam J. Comput. 31, ?, 799-? (2002).
  107. [Moore 03]: C. D. Moore, "Quantum computing", Math. Rev. 2003h, 81031, 6 (2003). Report on [Hirvensalo 01].
  108. [Moore 89]: W. Moore, Schrödinger. Life and thought, Cambridge University Press, Cambridge, 1989. Compressed version: A life of Erwin Schrödinger, Cambridge University Press, Cambridge, 1994. Spanish version: Erwin Schrödinger: Una vida, Cambridge University Press, Cambridge, 1996.
  109. [Mohan-Luo-Kröll-Mair 98]: R. K. Mohan, B. Luo, S. Kröll, & A. Mair, "Delayed single-photon self-interference", Phys. Rev. A 58, 6, 4348-4358 (1998).
  110. [Mohrhoff 96]: U. Mohrhoff, "Restoration of interference and the fallacy of delayed choice: Concerning an experiment proposed by Englert, Scully, and Walther", Am. J. Phys. 64, 12, 1468-1475. See [Scully-Englert-Walther 91], [Englert-Scully-Walther 94].
  111. [Mohrhoff 99]: U. Mohrhoff, "Objectivity, retrocausation, and the experiment of Englert, Scully, and Walther", Am. J. Phys. 67, 4, 330-335 (1999). See [Englert-Scully-Walther 99].
  112. [Mohrhoff 00 a]: U. Mohrhoff, "What quantum mechanics is trying to tell us", Am. J. Phys. 68, 8, 728-745 (2000). Comment: [Kastner 01].
  113. [Mohrhoff 00 b]: U. Mohrhoff, "The one, the many, and the quantum", quant-ph/0005110.
  114. [Mohrhoff 01 a]: U. Mohrhoff, "Objective probabilities, quantum counterfactuals, and the ABL rule-A response to R. E. Kastner", Am. J. Phys. 69, 8, 864-873 (2001); quant-ph/0006116. Reply to [Kastner 01].
  115. [Mohrhoff 01 b]: U. Mohrhoff, "Quantum mechanics and consciousness: Fact and fiction", quant-ph/0102047.
  116. [Mohrhoff 01 c]: U. Mohrhoff, "Unveiled reality: comment on d'Espagnat's note on measurement", quant-ph/0102103. Comment on [d'Espagnat 01].
  117. [Mohrhoff 01 d]: U. Mohrhoff, "A space for the quantum world", quant-ph/0107005.
  118. [Mohrhoff 01 e]: U. Mohrhoff, "Two theories of decoherence", quant-ph/0108002.
  119. [Mohrhoff 01 f]: U. Mohrhoff, `Against "knowledge"\', quant-ph/0109150.
  120. [Mohrhoff 02 a]: U. Mohrhoff, "The world according to quantum mechanics (or, the 18 errors of Henry P. Stapp)", Found. Phys. 32, 2, 217-254 (2002); quant-ph/0105097. Comment on [Stapp 01 c]. Reply: [Stapp 02].
  121. [Mohrhoff 02 b]: U. Mohrhoff, "Making sense of a world of clicks", Found. Phys. 32, 8, 1295-1311 (2002); quant-ph/0202148.
  122. [Mohrhoff 02 c]: U. Mohrhoff, "Why the laws of physics are just so", Found. Phys. 32, 8, 1313-1324 (2002); quant-ph/0202149.
  123. [Mohrhoff 03 a]: U. Mohrhoff, "Is the end in sight for theoretical pseudophysics?", in V. Krasnoholovets, Progress in quantum physics research, Nova Science, ?, 2003; quant-ph/0305095.
  124. [Mohrhoff 03 b]: U. Mohrhoff, "Do quantum states evolve? Apropos of Marchildon's remarks", Found. Phys.; quant-ph/0307113.
  125. [Mor 96]: T. Mor, "Reducing quantum errors and improving large scale quantum cryptography", quant-ph/9608025.
  126. [Mor 97]: T. Mor, "Quantum memory in quantum cryptography", Ph. D. thesis, Technion, Haifa, 1997; quant-ph/9906073.
  127. [Mor 98 a]: T. Mor, "No cloning of orthogonal states in composite systems", Phys. Rev. Lett. 80, 14, 3137-3140 (1998); quant-ph/9802036.
  128. [Mor 99]: T. Mor, "Disentangling quantum states while preserving all local properties", Phys. Rev. Lett. 83, 7, 1451-1454 (1999); quant-ph/9812020.
  129. [Mor-Terno 99]: T. Mor, & D. R. Terno, "Sufficient conditions for a disentanglement", Phys. Rev. A 60, 6, 4341-4343 (1999); quant-ph/9907036.
  130. [Mor-Horodecki 99]: T. Mor, & P. Horodecki, "Teleportation via generalized measurements, and conclusive teleportation", quant-ph/9906039.
  131. [Moret Bailly 01]: J. Moret-Bailly, "Pointlessness and dangerousness of the postulates of quantum mechanics", quant-ph/0107011.
  132. [Morgan 00]: P. Morgan, "The derivation of Bell inequalities for beables", quant-ph/0009087.
  133. [Morgan 03 a]: P. Morgan, "A relativistic variant of the Wigner function", Phys. Lett. A; quant-ph/0304171.
  134. [Morgan 03 b]: P. Morgan, "Bell inequalities and incompatible measurements", quant-ph/0307123.
  135. [Morigi-Walther 01]: G. Morigi, & H. Walther, "Two-species Coulomb chains for quantum information", Eur. Phys. J. D 13, 3, 261-269 (2001).
  136. [Morikoshi 99]: F. Morikoshi, "Entanglement measure and distance", quant-ph/9905022.
  137. [Morikoshi 00]: F. Morikoshi, "Recovery of entanglement lost in entanglement manipulation", Phys. Rev. Lett. 84, 14, 3189-3192 (2000); quant-ph/9911019.
  138. [Morikoshi-Koashi 01]: F. Morikoshi, & M. Koashi, "Deterministic entanglement concentration", Phys. Rev. A 64, 2, 022316 (2001); quant-ph/0107120.
  139. [Mosca-Ekert 99]: M. Mosca, & A. K. Ekert, "The hidden subgroup problem and eigenvalue estimation on a quantum computer", in C. P. Williams (ed.), 1st NASA Int. Conf. on Quantum Computing and Quantum Communications (Palm Springs, California, 1998), Lecture Notes in Computer Science 1509, Springer-Verlag, New York, 1999, pp. 174-188; quant-ph/9903071.
  140. [Mosca-Tapp-de Wolf 00]: M. Mosca, A. Tapp, & R. de Wolf, "Private quantum channels and the cost of randomizing quantum information", quant-ph/0003101.
  141. [Mosna-Vaz 03]: R. A. Mosna, & J. Vaz, Jr., "Quantum tomography for Dirac spinors", Phys. Lett. A; quant-ph/0303072.
  142. [Motoyoshi 00]: A. Motoyoshi, "Teleportation without resorting to Bell measurement", Phys. Lett. A 270, 6, 293-295 (2000).
  143. [Mould 98]: R. A. Mould, "Consciousness and quantum mechanics", Found. Phys. 28, 11, 1703-1718 (1998).
  144. [Mould 01]: R. A. Mould, "Consciousness and endogenous state reduction: Two experiments", Found. Phys. Lett. 14, 4, 377-386 (2001); quant-ph/0106103.
  145. [Mould 03 a]: R. A. Mould, "Quantum brain states", Found. Phys. 33, 4, 571-592 (2003); quant-ph/0303064.
  146. [Mould 03 b]: R. A. Mould, "Objective vs observer measurements", quant-ph/0303065.
  147. [Mould 03 c]: R. A. Mould, "Timing of the Penrose R-process", quant-ph/0303067.
  148. [Mould 03 d]: R. A. Mould, "Rule (4) and continuous observation", quant-ph/0309029.
  149. [Moura Alves-Horodecki-Oi-(+2) 03]: C. Moura Alves, P. Horodecki, D. K. L. Oi, L. C. Kwek, & A. K. Ekert, "Direct estimation of functionals of density operators by local operations and classical communication", Phys. Rev. A 68, 3, 032306 (2003); quant-ph/0304123.
  150. [Moussa 97 a]: M. H. Y. Moussa, "Teleportation with identity interchange of quantum states", Phys. Rev. A 55, 5, R3287-R3290 (1997).
  151. [Moussa 97 b]: M. H. Y. Moussa, "Preparation of the Bell operator basis through a restricted multiplying device", Phys. Lett. A 231, 1, 23-28 (1997).
  152. [Moussa-Baseia 98]: M. H. Y. Moussa, & B. Baseia, "Nonlocality of a single particle: From the Fock space to cavity QED", Phys. Lett. A 245, 5, 335-338 (1998).
  153. [Moya Cessa-Wallentowitz-Vogel 99]: H. Moya-Cessa, S. Wallentowitz, & W. Vogel, "Quantum-state engineering of a trapped ion by coherent-state superpositions", Phys. Rev. A 59, 4, 2920-2925 (1999).
  154. [Moya Cessa-Dutra-Roversi-Vidiella Barranco 99]: H. Moya-Cessa, S. M. Dutra, J. A. Roversi, & A. Vidiella-Barranco, "Quantum state reconstruction in the presence of dissipation", J. Mod. Opt. 46, 4, 555-558 (1999); quant-ph/9907046.
  155. [Moya Cessa-Roversi-Dutra-Vidiella Barranco 99]: H. Moya-Cessa, J. A. Roversi, S. M. Dutra, & A. Vidiella-Barranco, "Recovering coherence from decoherence: A method of quantum-state reconstruction", Phys. Rev. A 60, 5, 4029-4033 (1999); quant-ph/9908034.
  156. [Moyal 49]: J. E. Moyal, "Quantum mechanics as a statistical theory", Proc. Cambridge Philos. Soc. 45, 99-124 (1949).
  157. [Mozyrsky-Privman-Hotaling 97]: D. Mozyrsky, V. Privman, & S. P. Hotaling, "Design of gates for quantum computation: the NOT gate", Int. J. Mod. Phys. B 11, ?, 2207-2215 (1997); quant-ph/9608029.
  158. [Mozyrsky-Privman-Hillery 97]: D. Mozyrsky, V. Privman, & M. Hillery, "A Hamiltonian for quantum copying", Phys. Lett. A 226, 5, 253-256 (1997).
  159. [Mozyrsky-Privman 97]: D. Mozyrsky, & V. Privman, "Adiabatic decoherence", quant-ph/9709020.
  160. [Mozyrsky-Martin 02]: D. Mozyrsky, & I. Martin, "Quantum-classical transition induced by electrical measurement", Phys. Rev. Lett. 89, 1, 018301 (2002).
  161. [Mozyrsky-Kogan-Gorshkov-Berman 02]: D. Mozyrsky, S. Kogan, V. N. Gorshkov, & G. P. Berman, "Time scales of phonon-induced decoherence of semiconductor spin qubits", Phys. Rev. B 65, 24, 245213 (2002).
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