1. [Ma-Long-Deng-(+2) 02]: Y. J. Ma, G. L. Long, F. G. Deng, F. Li, & S.-X. Zhang, "Cooperative three- and four-player quantum games", Phys. Lett. A 301, 3-4, 117-124 (2002).
  2. [Maassen-Uffink 88]: H. Maassen, & J. Uffink, "Generalized entropic uncertainty relations", Phys. Rev. Lett. 60, 12, 1103-1106 (1988).
  3. [Mabuchi-Zoller 96]: H. Mabuchi, & P. Zoller, "Inversion of quantum jumps in quantum optical systems under continuous observation", Phys. Rev. Lett. 76, 17, 3108-3111 (1996). Reprinted in [Macchiavello-Palma-Zeilinger 00], pp. 306-309.
  4. [Mabuchi 00]: H. Mabuchi, "Cavity quantum electrodynamics", [Macchiavello-Palma-Zeilinger 00], pp. 277-281.
  5. [Mabuchi-Doherty 02]: H. Mabuchi, & A. C. Doherty, "Cavity quantum electrodynamics: Coherence in context", Science 298, ?, 1372-? (2002).
  6. [Macchiavello-Palma-Zeilinger 00]: C. Macchiavello, G. M. Palma, & A. Zeilinger (eds.), Quantum computation and quantum information theory: Collected papers and notes (Villa Gualino, Torino, Italy, 1999), World Scientific, Singapore, 2000.
  7. [Macchiavello 00 a]: C. Macchiavello, "Universal transformations for finite dimensional quantum systems", Fortschr. Phys. 48, 5-7, 545-552 (2000).
  8. [Macchiavello 00 b]: C. Macchiavello, "Bounds on the efficiency of cloning for two-state quantum systems", J. Opt. B: Quantum Semiclass. Opt. 2, 2, 144-148 (2000).
  9. [Macchiavello-Palma 02]: C. Macchiavello, & G. M. Palma, "Entanglement-enhanced information transmission over a quantum channel with correlated noise", Phys. Rev. A 65, 5, 050301 (2002); quant-ph/0107052.
  10. [Macchiavello-Bruß02]: C. Macchiavello, & D. Bruß, "Security aspects of quantum cryptography with d-dimensional systems", in M. Ferrero (ed.), Proc. of Quantum Information: Conceptual Foundations, Developments and Perspectives (Oviedo, Spain, 2002), J. Mod. Opt. 50, 6-7, 1025-1033 (2003).
  11. [Macchiavello 03]: C. Macchiavello, "Optimal estimation of multiple phases", Phys. Rev. A 67, 6, 062302 (2003); quant-ph/0304126.
  12. [Macchiavello-Palma-Virmani 03]: C. Macchiavello, G. M. Palma, & S. Virmani, "Entangled states maximize the two qubit channel capacity for some Pauli channels with memory", quant-ph/0307016.
  13. [Macdonald 82]: A. L. Macdonald, "Comment on `Resolution of the Einstein-Podolsky-Rosen and Bell paradoxes' ", Phys. Rev. Lett. 49, 16, 1215 (1982). Comment on [Pitowsky 82 a]. Reply: [Pitowsky 82 b].
  14. [Macdonald 01]: A. Macdonald, "Joint measurement and state reduction", quant-ph/0108129.
  15. [Machida-Nakazato-Pascazio-(+2) 99]: K. Machida, H. Nakazato, S. Pascazio, H. Rauch, & S. Yu, "Reflection and transmission in a neutron-spin test of the quantum Zeno effect", Phys. Rev. A 60, 5, 3448-3460 (1999).
  16. [Mack-Dietmar-Fischer-Freyberger 00]: H. Mack, D. G. Fischer, & M. Freyberger, "Enhanced quantum estimation via purification", Phys. Rev. A 62, 4, 042301 (2000); quant-ph/0004096.
  17. [Mack-Bienert-Haug 02]: H. Mack, M. Bienert, F. Haug, F. S. Strauß, M. Freyberger, & W. P. Schleich, "Wave packet dynamics and factorization of numbers", quant-ph/0204040.
  18. [Mack-Freyberger 02]: H. Mack, & M. Freyberger, "Dynamics of entanglement between two trapped atoms", Phys. Rev. A 66, 4, 042113 (2002).
  19. [Mackey 57]: G. W. Mackey, "Quantum mechanics and Hilbert space", Am. Math. Monthly 64, 10, part II, 45-57 (1957).
  20. [Mackey 60]: G. W. Mackey, Lecture notes on the mathematical foundations of quantum mechanics, mimeograph, Harvard University, Cambridge, Massachusetts, 1960. Origin of [Mackey 63].
  21. [Mackey 63]: G. W. Mackey, The mathematical foundations of quantum mechanics, Benjamin, New York, 1963.
  22. [Mackman-Squires 95]: S. Mackman, & E. Squires, "Lorentz invariance and the retarded Bohm model", Found. Phys. 25, 3, 391-397 (1995).
  23. [MacRae 91]: N. MacRae, John von Neumann: The scientific genius who pioneered the modern computer, game theory, nuclear deterrence, and much more, Pantheon, New York, 1991; American Mathematical Society, New York, 1999. Review: [Ceruzzi 93]. See [Heims 80].
  24. [Maczy\'nski 67]: M. J. Maczy\'nski, "A remark on Mackey's axiom system for quantum mechanics", Bulletin de L'Académie Polonaise des Sciences, Serie des Sciences Mathematiques, Astronomiques et Physiques 15, ?, 583-587 (1967).
  25. [Maczy\'nski 71 a]: M. J. Maczy\'nski, "Boolean properties of observables in axiomatic quantum mechanics", Rep. Math. Phys. 2, 2, 135-150 (1971).
  26. [Maczy\'nski 71 b]: M. J. Maczy\'nski, "On representing observables in axiomatic quantum mechanics by point mappings", Bull. Acad. Pol. Sci. Ser. Sci. Math. Aston. Phys. 19, 4, 335-339 (1971).
  27. [Madsen 81]: J. Madsen, "Reply to `A critical analysis of N. Bohr's reply to the EPR argument' ", Phys. Lett. A 83, 3, 103-104 (1981). Comment on [Koç 81].
  28. [Maeda 89]: S. Maeda, "Probability measures on projections in von Neumann algebras", Rev. Math. Phys. 1, 2-3, 235-290 (1989).
  29. [MagiQ Technologies 02]: MagiQ Technologies, www.magiqtech.com.
  30. [Maguire 01]: Y. Maguire, "?", La Recherche ?, ?, ?-? (2001). Spanish version: "Unas gotas de ordenador", Mundo Científico 22, 230, 28-31 (2002).
  31. [Mahesh-Dorai-Arvind-Kumar 00]: T. S. Mahesh, K. Dorai, Arvind, & A. Kumar, "Quantum computing by two-dimensional NMR using spin- and transition-selective pulses", quant-ph/0006123.
  32. [Mahesh-Sinha-Ramanathan-Kumar 02]: T. S. Mahesh, N. Sinha, K. V. Ramanathan, & A. Kumar, "Ensemble quantum-information processing by NMR: Implementation of gates and the creation of pseudopure states using dipolar coupled spins as qubits", Phys. Rev. A 65, 2, 022312 (2002).
  33. [Mahesh-Sinha-Ghosh-(+5) 03]: T. S. Mahesh, N. Sinha, A. Ghosh, R. Das, N. Suryaprakash, M. H. Levitt, K. V. Ramanathan, & A. Kumar, "Quantum information processing by NMR using strongly coupled spins", Current Science 85, 7, 932-? (2003); quant-ph/0212123.
  34. [Mahler-Kim 98]: G. Mahler, & I. Kim, "Correlation between correlations: Process and time in quantum networks", 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. ?-?; quant-ph/9803008.
  35. [Mahesh-Kumar 01]: T. S. Mahesh, & A. Kumar, "Ensemble quantum-information processing by NMR: Spatially averaged logical labeling technique for creating pseudopure states", Phys. Rev. A 64, 1, 012307 (2001).
  36. [Mahler-Keller 96]: G. Mahler, & M. Keller, "Temporal Bell inequalities in quantum networks", in A. Mann, & M. Revzen (eds.), The dilemma of Einstein, Podolsky and Rosen - 60 years later. An international symposium in honour of Nathan Rosen (Haifa, Israel, 1995), Ann. Phys. Soc. Israel 12, 132-137 (1996).
  37. [Maia Neto-Dalvit 00]: P. A. Maia Neto, & D. A. R. Dalvit, "Radiation pressure as a source of decoherence", Phys. Rev. A 62, 4, 042103 (2000); quant-ph/0004057.
  38. [Maierle-Lidar-Harris 98]: C. S. Maierle, D. A. Lidar, & R. A. Harris, "How to teleport superpositions of chirial amplitudes", Phys. Rev. Lett. 81, 26, 5928-5931 (1998); quant-ph/9807020.
  39. [Mair-Zeilinger 99]: A. Mair, & A. Zeilinger, "Entangled states of orbital angular momentum of photons", in [Greenberger-Reiter-Zeilinger 99], pp. 249-252.
  40. [Mair-Vaziri-Weihs-Zeilinger 01]: A. Mair, A. Vaziri, G. Weihs, & A. Zeilinger, "Entanglement of the orbital angular momentum states of photons", Nature 412, 6844, 313-316 (2001); quant-ph/0104070.
  41. [Mair-Hager-Phillips-(+2) 02]: A. Mair, J. Hager, D. F. Phillips, R. L. Walsworth, & M. D. Lukin, "Phase coherence and control of stored photonic information", Phys. Rev. A 65, 3, 031802 (2002).
  42. [Maître-Hagley-Nogues-(+5) 97]: X. Maître, E. Hagley, G. Nogues, C. Wunderlich, P. Goy, M. Brune, J.-M. Raimond, & S. Haroche, "Quantum memory with a single photon in a cavity", Phys. Rev. Lett. 79, 4, 769-772 (1997). Reprinted in [Macchiavello-Palma-Zeilinger 00], pp. 298-301.
  43. [Maître-Hagley-Dreyer-(+5) 97]: X. Maître, E. Hagley, J. Dreyer, A. Maali, C. Wunderlich, M. Brune, J.-M. Raimond, & S. Haroche, "?", J. Mod. Opt. 44, 11-12 (Special issue: Quantum state preparation and measurement), 2023-2032 (1997).
  44. [Majewski 97]: A. W. Majewski, "Separable and entangled states of composite quantum systems; Rigorous description", quant-ph/9711051.
  45. [Majewski 00]: A. W. Majewski, "Some remarks on separability of states", quant-ph/0003007.
  46. [Majewski 01]: A. W. Majewski, "On the measure of entanglement", quant-ph/0101030.
  47. [Majewski 02]: A. W. Majewski, "On entanglement of formation", J. Phys. A 35, 1, 123-134 (2002).
  48. [Majorana 32]: E. Majorana, "Atomi orientati in campo magnetico variabile", Nuovo Cimento 9, 43-50 (1932).
  49. [Majumdar-Home 02]: A. S. Majumdar, & D. Home, "Interpreting the measurement of time of decay: phenomenological significance of the Bohm model", Phys. Lett. A 296, 4-5, 176-180 (2002); quant-ph/0009019.
  50. [Makhlin-Schön-Shnirman 99]: Y. Makhlin, G. Schön, & A. Shnirman, "Josephson-junction qubits with controlled couplings", Nature 398, 6725, 305-307 (1999). Reprinted in [Macchiavello-Palma-Zeilinger 00], pp. 395-397.
  51. [Makhlin-Schön-Shnirman 00]: Y. Makhlin, G. Schön, & A. Shnirman, "Josephson-junction qubits", Fortschr. Phys. 48, 9-11 (Special issue: Experimental proposals for quantum computation), 1043-1054 (2000).
  52. [Makhlin 00]: Y. Makhlin, "Nonlocal properties of two-qubit gates and mixed states and optimization of quantum computations", quant-ph/0002045.
  53. [Malley 98]: J. D. Malley, "Quantum conditional probability and hidden-variables models", Phys. Rev. A 58, 2, 812-820 (1998).
  54. [Mana 03]: P. G. L. Mana, "The properties of the Shannon entropy are not violated in quantum measurements", quant-ph/0302049. See [Brukner-Zeilinger 01 a].
  55. [Mancini-Martins-Tombesi 00]: S. Mancini, A. M. Martins, & P. Tombesi, "Quantum logic with a single trapped electron", Phys. Rev. A 61, 1, 012303 (2000); quant-ph/9912008.
  56. [Mancini-Bonifacio 01 a]: S. Mancini, & R. Bonifacio, "Nondissipative decoherence bounds on quantum computation", Phys. Rev. A 63, 3, 032310 (2001); quant-ph/0012057.
  57. [Mancini 01]: S. Mancini, "Ponderomotive entanglement purification", Phys. Lett. A 279, 1-2, 1-6 (2001); quant-ph/0012058.
  58. [Mancini-Bose 01 a]: S. Mancini, & S. Bose, "Ponderomotive entangling of atomic motions", Phys. Rev. A 64, 3, 032308 (2001); quant-ph/0105003.
  59. [Mancini-Bonifacio 01 b]: S. Mancini, & R. Bonifacio, "Quantum Zeno-like effect due to competing decoherence mechanisms", Phys. Rev. A 64, 4, 042111 (2001); quant-ph/0106137.
  60. [Mancini-Man'ko 01]: S. Mancini, & V. I. Man'ko, "The survival of quantum coherence in deformed states superposition", to appear in Europhys. Lett.; quant-ph/0103133.
  61. [Mancini-Vitali-Bonifacio-Tombesi 01]: S. Mancini, D. Vitali, R. Bonifacio, & P. Tombesi, "Stochastic control of quantum coherence", quant-ph/0108011.
  62. [Mancini-Bose 01 b]: S. Mancini, & S. Bose, "Engineering thermal entanglement between distant atoms", quant-ph/0111055.
  63. [Mancini-Man'ko 01]: S. Mancini, & V. I. Man'ko, "Deformed versus undeformed cat states encoding qubit", J. Opt. B: Quantum Semiclass. Opt.; quant-ph/0111128.
  64. [Mancini-Bonifacio 01]: S. Mancini, & R. Bonifacio, "Temporal imperfections building up correcting codes", J. Mod. Opt.; quant-ph/0111129.
  65. [Mancini-Giovannetti-Vitali-Tombesi 02]: S. Mancini, V. Giovannetti, D. Vitali, & P. Tombesi, "Entangling macroscopic oscillators exploiting radiation pressure", Phys. Rev. Lett. 88, 12, 120401 (2002); quant-ph/0108044.
  66. [Mancini-Vitali-Tombesi-Bonifacio 02]: S. Mancini, D. Vitali, P. Tombesi, & R. Bonifacio, "Preserving quantum coherence via random modulation", in R. Bonifacio, & D. Vitali (eds.), Mysteries, Puzzles and Paradoxes in Quantum Mechanics IV: Quantum Interference Phenomena (Gargnano, Italy, 2001), J. Opt. B: Quantum Semiclass. Opt. 4, 4, S300-S306 (2002).
  67. [Mancini-Tombesi 03]: S. Mancini, & P. Tombesi, "High-sensitivity force measurement using entangled probes", Europhys. Lett. 61, ?, 8-? (2003); quant-ph/0109138.
  68. [Mancini-Man'ko-Shchukin-Tombesi 03]: S. Mancini, V. I. Man'ko, E. V. Shchukin, & P. Tombesi, "A tomographic approach to quantum nonlocality", J. Opt. B: Quantum Semiclass. Opt.; quant-ph/0302089.
  69. [Mancini-Vitali-Tombesi 03]: S. Mancini, D. Vitali, & P. Tombesi, "Scheme for teleportation of quantum states onto a mechanical resonator", Phys. Rev. Lett. 90, 13, 137901 (2003); quant-ph/0303011.
  70. [Mancini-Giovannetti-Vitali-Tombesi 03]: S. Mancini, V. Giovannetti, D. Vitali, & P. Tombesi, "Entanglement from ponderomotive interaction", Opt. Spectrosc. 94, 711 (2003).
  71. [Mandel 83]: L. Mandel, "Is a photon amplifier always polarization dependent?", Nature 304, 5922, 188 (1983). See [Wootters-Zurek 82, 83].
  72. [Mandel 91]: L. Mandel, "?", Opt. Lett. 16, ?, 1882-? (1991).
  73. [Mandel 93]: L. Mandel, "Interference, indistinguishability, and nonlocality", 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. 347-361.
  74. [Mandel 97]: L. Mandel, "Evidence for the failure of local realism based on the Hardy-Jordan approach", in [Cohen-Horne-Stachel 97 a].
  75. [Maneva-Smolin 00]: E. N. Maneva, & J. A. Smolin, "Improved two-party and multi-party purification protocols", to be published in S. J. Lomonaco, Jr., (ed.), Quantum computation and quantum information science, AMS "Contemporary Math" series; quant-ph/0003099.
  76. [Mang-Xiwen-Kelin-Lei 00]: F. Mang, Z. Xiwen, G. Kelin, & S. Lei, "Quantum computing by pairing trapped ultracold ions", quant-ph/0011001.
  77. [Manin 99]: Y. I. Manin, "Classical computing, quantum computing, and Shor's factoring algorithm", quant-ph/9903008.
  78. [Maniscalco-Messina-Napoli-Vitali 01]: S. Maniscalco, A. Messina, A. Napoli, & D. Vitali, "Decoherence and robustness of parity-dependent entanglement in the dynamics of a trapped ion", J. Opt. B: Quantum Semiclass. Opt. 3, 5, 308-313 (2001).
  79. [Man'ko-Marmo-Sudarshan-Zaccaria 00]: V. I. Man'ko, G. Marmo, E. C. G. Sudarshan, & F. Zaccaria, "Inner composition law of pure states as a purification of impure states", Phys. Lett. A 273, 1-2, 31-36 (2000); quant-ph/9910080.
  80. [Man'ko-Man'ko-Vilela Mendes 01]: M. A. Man'ko, V. I. Man'ko, & R. Vilela Mendes, "Quantum computation by quantumlike systems", Phys. Lett. A 288, 3-4, 132-138 (2001).
  81. [Man'ko-Vilela Mendes 02]: V. I. Man'ko, & R. Vilela Mendes, "Quantum sensitive dependence", Phys. Lett. A 300, 4-5, 353-360 (2002).
  82. [Man'ko-Rosa-Vitale 03]: V. I. Man'ko, L. Rosa, & P. Vitale, "Identical particle states in the probability representation of quantum mechanics", J. Phys. A 36, 1, 255-265 (2003).
  83. [Man'ko-Sharapov-Shchukin 03]: V. I. Man'ko, V. A. Sharapov, & E. V. Shchukin, "Tomographic representation of evolution equation for density matrix of open system", Phys. Lett. A 309, 3-4, 176-182 (2003).
  84. [Mann-Nakamura-Revzen 92]: A. Mann, K. Nakamura, & M. Revzen, "Bell's inequality for mixed states", J. Phys. A 25, 13, L851-L854 (1992).
  85. [Mann-Sanders-Munro 95]: A. Mann, B. C. Sanders, & W. J. Munro, "Bell's inequality for an entanglement of nonorthogonal states", Phys. Rev. A 51, 2, 989-991 (1995).
  86. [Mann-Revzen 96]: A. Mann, & M. Revzen, The dilemma of Einstein, Podolsky and Rosen-60 years later, Annals of the Israel Physical Society, vol. 12, 1996. Review: [Barnett 98].
  87. [Mann-Revzen-Santos 98]: A. Mann, M. Revzen, & E. Santos, "Entanglement, information theory and Bell's inequality", Phys. Lett. A 238, 2-3, 85-89 (1998).
  88. [Marage-Wallenborn 95]: P. Marage, & G. Wallenborn (eds.), Les conseils Solvay et les débuts de la physique moderne, Université Libre de Bruxelles, 1995. English version: The Solvay councils and the birth of modern physics, Birkhäuser, Basel, 1998.
  89. [Marand-Townsend 95]: C. Marand, & P. D. Townsend, "Quantum key distribution over distances as long as 30 km", Opt. Lett. 20, 10, 1695-1697 (1995).
  90. [March 00]: R. H. March. "The odd quantum", Phys. Today 53, 4, 66 (2000). Review of [Treiman 99].
  91. [du Marchie van Voorthuysen 96]: E. H. du Marchie van Voorthuysen, "Realization of an interaction-free measurement of the presence of an object in a light beam", Am. J. Phys. 64, 12, 1504-1507 (1996).
  92. [Marchildon 00]: L. Marchildon, "No contradictions between Bohmian and quantum mechanics", quant-ph/0007068. See [Neumaier 00], [Ghose 00 a]. Reply: [Ghose 00 d].
  93. [Marchildon 01]: L. Marchildon, "On Bohmian trajectories in two-particle interference devices", quant-ph/0101132. Comment: [Ghose 01].
  94. [Marchildon 03 a]: L. Marchildon, "Two-particle interference devices and compatibility of Bohmian and standard quantum mechanics", in M. Ferrero (ed.), Proc. of Quantum Information: Conceptual Foundations, Developments and Perspectives (Oviedo, Spain, 2002), J. Mod. Opt. 50, 6-7, 873-879 (2003).
  95. [Marchildon 03 b]: L. Marchildon, "Remarks on Mohrhoff's interpretation of quantum mechanics", Found. Phys.; quant-ph/0303170.
  96. [Marchildon 03 c]: L. Marchildon, "The counterfactual meaning of the ABL rule", Int. Conf. on Quantum Theory: Reconsideration of Foundations (Växjö, Sweden 2003); quant-ph/0307082.
  97. [Marchiolli-Missori-Roversi 03]: M. A. Marchiolli, R. J. Missori, & J. A. Roversi, "Qualitative aspects of entanglement in the Jaynes–Cummings model with an external quantum field", J. Phys. A 36, 49, 12275-12292 (2003).
  98. [Marcikic-de Riedmatten-Tittel-(+3) 02]: I. Marcikic, H. de Riedmatten, W. Tittel, V. Scarani, H. Zbinden, & N. Gisin, "Time-bin entangled qubits for quantum communication created by femtosecond pulses", Phys. Rev. A 66, 6, 062308 (2002).
  99. [Marcikic-de Riedmatten-Tittel-(+2) 03]: I. Marcikic, H. de Riedmatten, W. Tittel, H. Zbinden, & N. Gisin, "Long-distance teleportation of qubits at telecommunication wavelengths", Nature 421, 6922, 509-514 (2003); quant-ph/0301178.
  100. [Mardari 03]: G. N. Mardari, "Inferential which-path determination as a test of locality", quant-ph/0312026.
  101. [Margenau 36]: H. Margenau, "Quantum-mechanical description", Phys. Rev. 49, 3, 240-242 (1936).
  102. [Margenau 49]: H. Margenau, "Reality in quantum mechanics", Philos. Sci. 16, ?, 287-302 (1949).
  103. [Margenau 50]: H. Margenau, The nature of physical reality, McGraw-Hill, New York, 1950.
  104. [Margenau 54]: H. Margenau, "Advantages and disadvantages of various interpretations of the quantum theory", Phys. Today 7, 10, 6-13 (1954).
  105. [Margenau 58]: H. Margenau, "Philosophical problems concerning the meaning of measurement in physics", Philos. Sci. 25, ?, 23-33 (1958).
  106. [Margenau 63 a]: H. Margenau, "Measurement and quantum states. Part I", Philos. Sci. 11, 1, 1-16 (1963).
  107. [Margenau 63 b]: H. Margenau, "Measurement and quantum states. Part II", Philos. Sci. 11, ?, 138-157 (1963).
  108. [Margenau 63 c]: H. Margenau, "Measurements in quantum mechanics", Ann. Phys. 23, ?, 469-485 (1963).
  109. [Margenau-Park 73]: H. Margenau, & J. L. Park, "The physics and the semantics of quantum measurement", Found. Phys. 3, 1, 19-28 (1973).
  110. [Margolin-Strazhev-Tregubovich 01]: A. E. Margolin, V. I. Strazhev, & A. Y. Tregubovich, "Remarks on the Halting problem, unitarity and reversibility in quantum theory of computations", quant-ph/0106108.
  111. [Margolin-Strazhev-Tregubovich 01]: A. E. Margolin, V. I. Strazhev, & A. Y. Tregubovich, "On non-holonomic quantum computer", quant-ph/0110015.
  112. [Margolin-Strazhev-Tregubovich 02]: A. E. Margolin, V. I. Strazhev, & A. Y. Tregubovich, "Geometric phases and quantum computations", Phys. Lett. A 303, 2-3, 131-134 (2002).
  113. [Margolin-Strazhev-Tregubovich 03]: A. E. Margolin, V. I. Strazhev, & A. Y. Tregubovich, "On non-adiabatic holonomic quantum computer", Phys. Lett. A 312, 5-6, 296-300 (2003).
  114. [Mariano-Facchi-Pascazio 01]: A. Mariano, P. Facchi, & S. Pascazio, "Decoherence and fluctuations in quantum interference experiments", quant-ph/0106027.
  115. [Marinatto-Weber 00 a]: L. Marinatto, & T. Weber, "A quantum approach to static games of complete information", Phys. Lett. A 272, 5-6, 291-303 (2000); quant-ph/0004081. Comment: [Benjamin 00 c]. Reply: [Marinatto-Weber 00 c].
  116. [Marinatto-Weber 00 b]: L. Marinatto, & T. Weber, "Which kind of two-particle states can be teleported through a three-particle quantum channel?", Found. Phys. Lett. 13, 2, 119-132 (2000); quant-ph/0004054.
  117. [Marinatto-Weber 00 c]: L. Marinatto, & T. Weber, `Reply to "Comment on: A quantum approach to static games of complete information" ', quant-ph/0009103. Reply to [Benjamin 00 c]. See [Marinatto-Weber 00 a].
  118. [Marinatto-Weber 01]: L. Marinatto, & T. Weber, "Teleportation with indistinguishable particles", Phys. Lett. A 287, 1-2, 1-6 (2001); quant-ph/0102025.
  119. [Marinatto 03]: L. Marinatto, `Comment on "Bell's theorem without inequalities and without probabilities for two observers" ', Phys. Rev. Lett. 90, 25, 258901 (2003); quant-ph/0306171. Comment on [Cabello 01 c]. Reply: [Cabello 03 f].
  120. [Markham-Vedral 03]: D. Markham, & V. Vedral, "Classicality of spin-coherent states via entanglement and distinguishability", Phys. Rev. A 67, 4, 042113 (2003).
  121. [Markham-Murao-Vedral 03]: D. Markham, M. Murao, & V. Vedral, "Entanglement generation from thermal spin states via unitary beam splitters", quant-ph/0307147.
  122. [Marmet 93]: P. Marmet, "Quantum mechanics and its paradox: A realistic solution to Mermin's EPR apparatus", Phys. Essays 6, 3, 436-439 (1993). See [Mermin 81 a, b, 85].
  123. [Maroney-Hiley 99]: O. Maroney, & B. J. Hiley, "Quantum state teleportation understood through the Bohm interpretation", Found. Phys. 29, 9, 1403-1416 (1999).
  124. [Marr-Beige-Rempe 03]: C. Marr, A. Beige, & G. Rempe, "Entangled-state preparation via dissipation-assisted adiabatic passages", Phys. Rev. A 68, 3, 033817 (2003); quant-ph/0305116.
  125. [Marsh 01]: J. S. Marsh, "Explicit measurement theory for quantum mechanics", Phys. Rev. A 64, 4, 042109 (2001).
  126. [Marshall-Santos-Selleri 83]: T. W. Marshall, E. Santos, & F. Selleri, "Local realism has not been refuted by atomic cascade experiments", Phys. Lett. A 98, 1-2, 5-9 (1983).
  127. [Marshall-Santos 85]: T. W. Marshall, & E. Santos, in "Reality and the quantum theory", Phys. Today 38, 11, 9-11 (1985). Comment on [Mermin 85].
  128. [Marshall-Santos 87]: T. W. Marshall, & E. Santos, "Comment on `Experimental evidence for a photon anticorrelation effect on a beam splitter: A new light on single-photon interferences' ", Europhys. Lett. 3, 3, 293-296 (1987). Comment on [Grangier-Roger-Aspect 86].
  129. [Marshall-Santos 89]: T. W. Marshall, & E. Santos, "Stochastic optics: A local realistic analysis of optical tests of Bell inequalities", Phys. Rev. A 39, 12, 6271-6283 (1989).
  130. [Marshall 91]: T. W. Marshall, "What does noise do to the Bell inequalities?", Found. Phys. 21, 2, 209-219 (1991).
  131. [Marshall-Santos 97]: T. W. Marshall, & E. Santos, "The myth of the photon", in S. Jeffers, S. Roy, & J.-P. Vigier (eds.), The present status of the quantum theory of light: Proc. of a symposium in honour of Jean-Pierre Vigier, Kluwer Academic, Dordrecht, Holland, 1997, pp. 67-77; quant-ph/9711046.
  132. [Marshall 97 a]: T. W. Marshall, "Do we need photons in parametric down conversion?", quant-ph/9711029. See [Marshall 97 c, d].
  133. [Marshall 97 b]: T. W. Marshall, "A local realistic theory of parametric down conversion", quant-ph/9711030.
  134. [Marshall 97 c]: T. W. Marshall, "The myth of the down converted photon", quant-ph/9712001. See [Marshall 97 a, d].
  135. [Marshall 97 d]: T. W. Marshall, "The zeropoint field-no longer a ghost", quant-ph/9712050. See [Marshall 97 a, c].
  136. [Marshall 98]: T. W. Marshall, "Parametric up conversion of the vacuum", quant-ph/9803054.
  137. [Marshall 02]: T. W. Marshall, "Nonlocality - The party may be over", quant-ph/0203042.
  138. [Martens-de Muynck 93]: H. Martens, & W. M. de Muynck, "Single and joint spin measurements with a Stern-Gerlach device", J. Phys. A 26, 8, 2001-2010 (1993). See [Martens-de Muynck 94].
  139. [Martens-de Muynck 94]: H. Martens, & W. M. de Muynck, "On the possibility of measuring the electron spin in an inhomogeneous magnetic field", Found. Phys. Lett. 7, 4, 343-352 (1994). See [Martens-de Muynck 93].
  140. [Martín Delgado-Navascues 03 a]: M. A. Martín-Delgado, & M. Navascues, "Distillation protocols for mixed states of multilevel qubits and the quantum renormalization group", quant-ph/0301099.
  141. [Martín Delgado-Navascues 03 b]: M. A. Martín-Delgado, & M. Navascues, "Single-step distillation protocol with generalized beam splitters", Phys. Rev. A 68, 1, 012322 (2003); quant-ph/0305138.
  142. [Martínez Linares-Harmin 98]: J. Martínez Linares, & D. A. Harmin, "Duality in asymmetric interferometers", submitted to Phys. Rev. A. See [Englert 96 b].
  143. [Martínez Linares-Vargas Medina 03]: J. Martínez Linares, & J. Vargas-Medina, "The quantum self-eraser", quant-ph/0309005.
  144. [De Martini 98 a]: F. De Martini, "Teleportation: Who was first?", Phys. World 11, 3, 23-24 (1998). See [Zeilinger 98 a].
  145. [De Martini 98 b]: F. De Martini, "Quantum superposition of parametrically amplified multiphoton pure states", Phys. Lett. A 250, 1-3, 15-19 (1998).
  146. [De Martini 98 c]: F. De Martini, "Amplification of quantum entanglement", Phys. Rev. Lett. 81, 14, 2842-2845 (1998).
  147. [De Martini-Mussi 00]: F. De Martini, & V. Mussi, "Universal quantum cloning and macroscopic superposition in parametric amplification", Fortschr. Phys. 48, 5-7, 413-422 (2000).
  148. [De Martini-Mussi-Bovino 00]: F. De Martini, V. Mussi, & F. Bovino, "Schrödinger cat states and optimum universal quantum cloning by entangled parametric amplification", Opt. Comm. 179, ?, 581-589 (2000).
  149. [De Martini-Di Giuseppe-Pádua 01]: F. De Martini, G. Di Giuseppe, S. Pádua, "Multiparticle quantum superposition and stimulated entanglement by parity selective amplification of entangled states", Phys. Rev. Lett. 87, 15, 150401 (2001); quant-ph/0011081.
  150. [De Martini-Buzzek-Sciarrino-Sias 02]: F. De Martini, V. Buzzek, F. Sciarrino, & C. Sias, "Experimental realization of the quantum universal NOT gate", Nature 419, 6909, 815-818 (2002). See [Gisin 02 b].
  151. [De Martini-Mazzei-Ricci-D'Ariano 03]: F. De Martini, A. Mazzei, M. Ricci, & G. M. D'Ariano, "Exploiting quantum parallelism of entanglement for a complete experimental quantum characterization of a single-qubit device", Phys. Rev. A 67, 6, 062307 (2003).
  152. [De Martini-Sciarrino-Secondi 03]: F. De Martini, F. Sciarrino, & V. Secondi, "A qubit on the Faraday mirror", quant-ph/0312113.
  153. [De Martini-Pelliccia-Sciarrino 03]: F. De Martini, D. Pelliccia, & F. Sciarrino, "Contextual, optimal and universal realization of the quantum cloning machine and of the NOT gate", quant-ph/0312124.
  154. [Martinis-Devoret-Clarke 00]: J. M. Martinis, M. H. Devoret, & J. Clarke, "Experimental tests of the quantum behavior of a macroscopic degree of freedom: The phase difference across a Josephson junction", Phys. Rev. B 35, 10, 4682-4698 (1987).
  155. [Martinis-Nam-Aumentado-(+2) 03]: J. M. Martinis, S. Nam, J. Aumentado, K. M. Lang, & C. Urbina, "Decoherence of a superconducting qubit due to bias noise", Phys. Rev. B 67, 9, 094510 (2003).
  156. [Martins 02]: A. M. Martins, "Proposed demonstration of the Einstein-Poldosky-Rosen paradox using trapped electrons", Phys. Rev. A 65, 5, 052114 (2002).
  157. [Marto-Croca 02]: J. Marto, & J. R. Croca, "Non-local interferometry: A causal explanation by means of local wavelet analysis", Found. Phys. 32, 7, 1091-1109 (2002).
  158. [Maruyama-Knight 03 a]: K. Maruyama, & P. L. Knight, "Upper bounds for the number of quantum clones under decoherence", Phys. Rev. A 67, 3, 032303 (2003).
  159. [Maruyama-Knight 03 b]: K. Maruyama, & P. L. Knight, "Quantum state restoration by quantum cloning and measurement", quant-ph/0309167.
  160. [Maruyama-Morikoshi-Vedral 03]: K. Maruyama, F. Morikoshi, & V. Vedral, "Entangled Maxwell's demons violating thermodynamical separability criteria", quant-ph/0311083.
  161. [Marx-Fahmy-Myers-(+2) 99]: R. Marx, A. F. Fahmy, J. M. Myers, W. Bermel, & S. J. Glaser, "Realization of a 5-bit NMR quantum computer using a new molecular architecture", quant-ph/9905087.
  162. [Marx-Fahmy-Myers-(+2) 00]: R. Marx, A. F. Fahmy, J. M. Myers, W. Bermel, & S. J. Glaser, "Approaching five-bit NMR quantum computing", Phys. Rev. A 62, 1, 012310 (2000).
  163. [Marzlin-Bartlett-Sanders 03]: K.-P. Marzlin, S. D. Bartlett, & B. C. Sanders, "Entanglement gauge and the non-Abelian geometric phase with two photonic qubits", Phys. Rev. A 67, 2, 022316 (2003).
  164. [Masanes-Vidal-Latorre 02]: L. Masanes, G. Vidal, & J. I. Latorre, "Time-optimal Hamiltonian simulation and gate synthesis using homogeneous local unitaries", quant-ph/0202042.
  165. [Masanes 03]: L. Masanes, "Necessary and sufficient condition for quantum-generated correlations", quant-ph/0309137.
  166. [Masato-Nobuyuki 98]: K. Masato, & I. Nobuyuki, "Configuration method for quantum cryptography", patent JP10322329A, 1998.
  167. [Mashkevich 98 a]: V. S. Mashkevich, "On Stapp-Unruh-Mermin dscussion on quantum nonlocality: Quantum jumps and relativity", quant-ph/9801032. See [Stapp 97 a].
  168. [Mashkevich 98 b]: V. S. Mashkevich, "Comment on `Quantum entanglement and the nonexistence of superluminal signals' ", quant-ph/9801062. Comment on [Westmoreland-Schumacher 98]. See [Mashkevich 98 b].
  169. [Mashkevich 98 c]: V. S. Mashkevich, "On quantum nonlocality: Using prediction of a distant measurement outcome", quant-ph/9802071.
  170. [Mashkevich 98 d]: V. S. Mashkevich, "Another comment on `Quantum entanglement and the nonexistence of superluminal signals' ", quant-ph/9803027. Comment on [Westmoreland-Schumacher 98]. See [Mashkevich 98 b].
  171. [Masiak-Knight 98]: M. Masiak, & P. L. Knight, "Copying of entangled states and the degradation of correlations", quant-ph/9808043.
  172. [Masiak 02]: P. Masiak, "Quantum-entanglement production in a micromaser", Phys. Rev. A 66, 2, 023804 (2002).
  173. [Masiak 03]: P. Masiak, "Entanglement preservation in quantum cloning", J. Mod. Opt. 50, 12, 1873-1881 (2003); quant-ph/0309019.
  174. [Maslennikov-Zhukov-Chekhova-Kulik 03]: G. A. Maslennikov, A. A. Zhukov, M. V. Chekhova, & S. P. Kulik, "Practical realization of the quantum cryptography protocol exploiting polarization encoding in the qutrits", quant-ph/0305115.
  175. [Massad 98]: J. E. Massad, "The Penrose dodecahedron", Project report, Worcester Polytechnic Institute. See [Zimba-Penrose 93], [Massad-Aravind 99].
  176. [Massad-Aravind 99]: J. E. Massad, & P. K. Aravind, "The Penrose dodecahedron revisited", Am. J. Phys. 67, 7, 631-638 (1999). See [Zimba-Penrose 93], [Massad 98].
  177. [Massar-Popescu 95]: S. Massar, & S. Popescu, "Optimal extraction from finite quantum ensambles", Phys. Rev. Lett. 74, 8, 1259-1263 (1995).
  178. [Massar-Popescu 00]: S. Massar, & S. Popescu, "Amount of information obtained by a quantum measurement", Phys. Rev. A 61, 6, 062303 (2000); quant-ph/9907066.
  179. [Massar 00]: S. Massar, "Collective versus local measurements on two parallel or antiparallel spins", Phys. Rev. A 62, 4, 040101(R) (2000); quant-ph/0004035.
  180. [Massar-Bacon-Cerf-Cleve 01]: S. Massar, D. Bacon, N. Cerf, & R. Cleve, "Classical simulation of quantum entanglement without local hidden variables", Phys. Rev. A 63, 5, 052305 (2001); quant-ph/0009088.
  181. [Massar-Pironio 01]: S. Massar, & S. Pironio, "Greenberger-Horne-Zeilinger paradox for continuous variables", Phys. Rev. A 64, 6, 062108 (2001); quant-ph/0103048.
  182. [Massar-Pironio-Roland-Gisin 02]: S. Massar, S. Pironio, J. Roland, & B. Gisin, "Bell inequalities resistant to detector inefficiency", Phys. Rev. A 66, 5, 052112 (2002).
  183. [Massar-Mitchison-Pironio 01]: S. Massar, G. Mitchison, & S. Pironio, "Minimal absorption measurements", Phys. Rev. A 64, 6, 062303 (2001); quant-ph/0102116.
  184. [Massar 02]: S. Massar, "Nonlocality, closing the detection loophole, and communication complexity", Phys. Rev. A 65, 3, 032121 (2002); quant-ph/0109008.
  185. [Massar-Polzik 03]: S. Massar, & E. S. Polzik, "Generating a superposition of spin states in an atomic ensemble", Phys. Rev. Lett. 91, 6, 060401 (2003); quant-ph/0306121.
  186. [Massar 03]: S. Massar, "Quantum fingerprinting with a single particle", quant-ph/0305112.
  187. [Massen-Moustakidis-Panos 02]: S. E. Massen, C. C. Moustakidis, & C. P. Panos, "Comparison of the information entropy in fermionic and bosonic systems", Phys. Lett. A 299, 2-3, 131-136 (2002).
  188. [Massini-Fortunato-Mancini-(+2) 00]: M. Massini, M. Fortunato, S. Mancini, P. Tombesi, & D. Vitali, "Schrödinger-cat entangled state reconstruction in the Penning trap", New J. Phys. 2, 20.1-20.14 (2002); quant-ph/0007076.
  189. [Massini-Fortunato-Mancini-Tombesi 00]: M. Massini, M. Fortunato, S. Mancini, & P. Tombesi, "Synthesis and characterization of entangled mesoscopic superpositions for a trapped electron", Phys. Rev. A 62, 4, 041401 (2000); quant-ph/0105131.
  190. [Mataloni-Giorgi-De Martini 02]: P. Mataloni, G. Giorgi, & F. De Martini, "Frequency hopping in quantum interferometry: Efficient up-down conversion for qubits and ebits", quant-ph/0201116.
  191. [Matteucci-Beeli 98]: G. Matteucci, & C. Beeli, "An experiment on electron wave-particle duality including a Planck constant measurement", Am. J. Phys. 66, 12, 1055-1059 (1998).
  192. [Mattle-Michler-Weinfurter-(+2) 95]: K. Mattle, M. Michler, H. Weinfurter, A. Zeilinger, & M. Żukowski, "Nonclassical statistics at multiport beamsplitters", Appl. Phys. B 60, 2-3, S111-S117 (1995).
  193. [Mattle-Weinfurter-Kwiat-Zeilinger 96]: K. Mattle, H. Weinfurter, P. G. Kwiat, & A. Zeilinger, "Dense coding in experimental quantum communication", Phys. Rev. Lett. 76, 25, 4656-4659 (1996).
  194. [Matsumoto-Uyematsu 00]: R. Matsumoto, & T. Uyematsu, "Constructing quantum error-correcting codes for pm-state systems from classical error-correcting codes", IEICE Trans. on Fundamentals of Electronics, Communications and Computer Sciences E83-A, 10, 1878-1883 (2000); quant-ph/9911011.
  195. [Matsumoto 01 a]: R. Matsumoto, "Fidelity of a t-error-correcting quantum code with more than t errors", Phys. Rev. A 64, 2, 022314 (2001). Erratum: Phys. Rev. A 66, 5, 059901 (2002).
  196. [Matsumoto 01 b]: R. Matsumoto, "Algebraic geometric construction of a quantum stabilizer code", quant-ph/0107128.
  197. [Matsumoto-Uyematsu 02]: R. Matsumoto, & T. Uyematsu, "Lower bound for the quantum capacity of a discrete memoryless quantum channel", J. Math. Phys. 43, 9, 4391-4403 (2002); quant-ph/0105151.
  198. [Matsumoto 03]: R. Matsumoto, "Conversion of a general quantum stabilizer code to an entanglement distillation protocol", J. Phys. A 36, 29, 8113–8127 (2003).
  199. [Matsumoto-Shimono-Winter 02]: K. Matsumoto, T. Shimono, & A. Winter, "Remarks on additivity of the Holevo channel capacity and of the entanglement of formation", quant-ph/0206148.
  200. [Matsuoka-Hirano 03]: M. Matsuoka, & T. Hirano, "Quantum key distribution with a single photon from a squeezed coherent state", Phys. Rev. A 67, 4, 042307 (2003).
  201. [Matzkin 02]: A. Matzkin, "Realism and the wavefunction", Eur. J. Phys. 23, 3, 285-294 (2002).
  202. [Maudlin 94]: T. Maudlin, Quantum non-locality and relativity: Metaphysical intimations of modern physics, Blackwell, Oxford, 1994.
  203. [Maurer-Hogg-Huberman 01]: S. M. Maurer, T. Hogg, & B. A. Huberman, "Portfolios of quantum algorithms", Phys. Rev. Lett. 87, 25, 257901 (2001); quant-ph/0105071.
  204. [Mayburov 99]: S. Mayburov, "Quantum information, irreversibility and state collapse in some microscopic models of measurement", quant-ph/9911105.
  205. [Mayburov 00]: S. Mayburov, "Relational quantum measurements, information and state collapse", quant-ph/0006104.
  206. [Mayburov 00]: S. Mayburov, "Quantum measurements, information, and dual states representations", Proc. of 4th Quantum Communications, Computers and Measurements Conf., Kluwer Academic, Dordrecht, Holland, 2001; quant-ph/0103161.
  207. [Mayer 94]: M. E. Mayer, "Quantum theory: Concepts and methods", Phys. Today 47, 12, 65-66 (1994). Review of [Peres 93 a].
  208. [Mayer 96]: M. E. Mayer, "Book review. Lectures on quantum theory. Mathematical and structural foundations", Phys. Today 49, 8, 66 (1996). Review of [Isham 95].
  209. [Mayers 96 a]: D. Mayers, "Unconditionally secure quantum bit commitment is impossible", in 4h Workshop on Physics and Computation-PhysCom '96, (Boston, 1996).
  210. [Mayers 96 b]: D. Mayers, "?", in N. Koblitz (ed.), Advances in Cryptology-Proc. of Crypto '96, Springer-Verlag, New York, 1996, p. 343-357. Preliminary version of [Mayers 01].
  211. [Mayers 96 c]: D. Mayers, "The trouble with quantum bit commitment", quant-ph/9603015.
  212. [Mayers 97]: D. Mayers, "Unconditionally secure quantum bit commitment is impossible", Phys. Rev. Lett. 78, 17, 3414-3417 (1997).
  213. [Mayers-Yao 98]: D. Mayers, & A. Yao, "Quantum cryptography with imperfect apparatus", Proc. of the 39th Annual Symposium on Foundations of Computer Science, IEEE Computer Society, Los Alamitos, California, p. 503; quant-ph/9809039.
  214. [Mayers-Salvail-Chiba Kohno 99]: D. Mayers, L. Salvail, & Y. Chiba-Kohno, "Unconditionally secure quantum coin tossing", quant-ph/9904078. Comment: [Leslau 01].
  215. [Mayers 01]: D. Mayers, "Unconditional security in quantum cryptography", J. ACM 48, 3, 351-406 (2001); quant-ph/9802025. Preliminary version: [Mayers 96 b].
  216. [Mayers 02 a]: D. Mayers, "Shor and Preskill's and Mayers's security proof for the BB84 quantum key distribution protocol", Eur. Phys. J. D 18, 2 (Special issue: Quantum interference and cryptographic keys: Novel physics and advancing technologies (QUICK) (Corsica, 2001), 161-170 (2002).
  217. [Mayers 02 b]: D. Mayers, "Superselection rules in quantum cryptography", quant-ph/0212159.
  218. [Mayers-Yao 03]: D. Mayers, & A. Yao, "Self testing quantum apparatus", quant-ph/0307205.
  219. [Mazourenko-Merolla-Goedgebuer 98]: Y. Mazourenko, J.-M. Merolla, & J.-P. Goedgebuer, "Method and apparatus for quantum key distribution", patent EP877508A1, 1998.
  220. [Mazzitelli-Paz-Villanueva 03]: F. D. Mazzitelli, J. P. Paz, & A. Villanueva, "Decoherence and recoherence from vacuum fluctuations near a conducting plate", quant-ph/0307004.
    221. |Äîìîé|