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John von Neumann 1903-1957. (English) Zbl 0080.00411


Biographic References:

von Neumann, John
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[1] John von Neumann, Über die Lage der Nullstellen gewisser Minimumpolynome. With M. Fekete. Jber. Deutschen Math. Verein, vol. 31 (1922) pp. 125-138. · JFM 48.0085.01
[2] John von Neumann, Zur Einführung der transfiniten Ordnungszahlen, Acta Univ. Szeged vol. 1 (1923) pp. 199-208. · JFM 49.0139.02
[3] John von Neumann, Eine Axiomatisierung der Mengenlehre, J. Reine Angew. Math. vol. 154 (1925) pp. 219-240. · JFM 51.0163.04
[4] John von Neumann, Egyenletesen sürü számsorozatok, Math. Phys. Lapok vol. 32 (1925) pp. 32-40.
[5] John von Neumann, A certain zero-sum two-person game equivalent to the optimal assignment problem, Contributions to the theory of games, vol. 2, Annals of Mathematics Studies, no. 28, Princeton University Press, Princeton, N. J., 1953, pp. 5 – 12. · Zbl 0050.14105
[6] John von Neumann, Az áltálanos Nalmazelmélet axiomatikus folépitése (Doctor’s thesis, Univ. of Budapest.) Cf. [18] (1926).
[7] John von Neumann, Uber die Grundlagen der Quantenmechanik. With D. Hilbert and L. Nordheim. Math. Ann. vol. 98 (1927) pp. 1-30. · JFM 53.0849.03
[8] John von Neumann, Zur Theorie der Darstellungen kontinuierlicher Gruppen, Preuss. Akad. Wiss. Sitzungsber. (1927) pp. 76-90. · JFM 53.0387.01
[9] John von Neumann, Mathematische Begrundung der Quantenmechanik, Nachr. Ges. Wiss. Göttingen (1927), pp. 1-57. · JFM 53.0848.03
[10] John von Neumann, Wahrscheinlichkeitstheoretischer Aufbau der Quantenmechanik, Nachr. Ges. Wiss. Gottingen (1927) pp. 245-272. · JFM 53.0849.01
[11] John von Neumann, Thermodynamik quantenmechanischer Gesamtheiten, Nachr. Ges. Wiss. Göttingen (1927) pp. 273-291. · JFM 53.0849.02
[12] Marina v. N. Whitman, John von Neumann: a personal view, The legacy of John von Neumann (Hempstead, NY, 1988) Proc. Sympos. Pure Math., vol. 50, Amer. Math. Soc., Providence, RI, 1990, pp. 1 – 4. · doi:10.1090/pspum/050/1067744
[13] John von Neumann, On the theory of games of strategy, Contributions to the theory of games, Vol. IV, Annals of Mathematics Studies, no. 40, Princeton University Press, Princeton, N.J., 1959, pp. 13 – 42. · Zbl 0085.13201
[14] John von Neumann, Zerlegung des Intervalles in abzählbar viele kongruente Teilmengen, Fund. Math. vol. 11 (1928) pp. 230-238. · JFM 54.0096.03
[15] Israel Halperin, The extraordinary inspiration of John von Neumann, The legacy of John von Neumann (Hempstead, NY, 1988) Proc. Sympos. Pure Math., vol. 50, Amer. Math. Soc., Providence, RI, 1990, pp. 15 – 17. · doi:10.1090/pspum/050/1067747
[16] J. v. Neumann, Über die Definition durch transfinite Induktion und verwandte Fragen der allgemeinen Mengenlehre, Math. Ann. 99 (1928), no. 1, 373 – 391 (German). · JFM 54.0089.01 · doi:10.1007/BF01459102
[17] Israel Halperin, The extraordinary inspiration of John von Neumann, The legacy of John von Neumann (Hempstead, NY, 1988) Proc. Sympos. Pure Math., vol. 50, Amer. Math. Soc., Providence, RI, 1990, pp. 15 – 17. · doi:10.1090/pspum/050/1067747
[18] J. v. Neumann, Die Axiomatisierung der Mengenlehre, Math. Z. 27 (1928), no. 1, 669 – 752 (German). · JFM 54.0088.02 · doi:10.1007/BF01171122
[19] John von Neumann, Zur Erklärung einiger Eigenschaften der Spektren aus der Quantenmechanik des Drehelektrons, I. With E. Wigner. Zschr. f. Phys. vol. 47 (1928) pp. 203-220. · JFM 54.0976.05
[20] John von Neumann, Einige Bemerkungen zur Diracschen Theorie des Drehelektrons, Zschr.f. Phys. vol. 48 (1928) pp. 868-881. · JFM 54.0972.03
[21] John von Neumann, Zur Erklärung einiger Eigenschaften der Spektren aus der Quantenmechanik des Drehelektrons, II. With E. Wigner. Zschr. f. Phys. vol. 49 (1928) pp. 73-94. Cf. [19]. · JFM 54.0976.05
[22] John von Neumann, Zur Erklärung einiger Eigenschaften der Spektren aus der Quantenmechanik des Drehelektrons, III. With E. Wigner. Zschr. f. Phys. vol. 51 (1928) pp. 844-858. Cf. [19]. · JFM 54.0976.05
[23] John von Neumann, Über eine Widerspruchfreiheitsfrage der axiomatischen Mengenlehre, J. Reine Angew. Math. vol. 160 (1929) pp. 227-241. · JFM 55.0052.02
[24] J. v. Neumann, Über die analytischen Eigenschaften von Gruppen linearer Transformationen und ihrer Darstellungen, Math. Z. 30 (1929), no. 1, 3 – 42 (German). · JFM 55.0245.05 · doi:10.1007/BF01187749
[25] John von Neumann, Über merkwürdige diskrete Eigenwerte. With E. Wigner. Phys. Zschr. vol. 30 (1929) pp. 465-467. · JFM 55.0520.04
[26] John von Neumann, Über das Verhalten von Eigenwerten bei adiabatischen Prozessen. With E. Wigner. Phys. Zschr. vol. 30 (1929) pp. 467-470. · JFM 55.0520.05
[27] John von Neumann, Beweis des Ergodensatzes und des H-Theorems in der neuen Mechanik, Zschr. f. Phys. vol. 57 (1929) pp. 30-70. · JFM 55.0523.05
[28] John von Neumann, Zur allgemeinen Theorie des Masses, Fund. Math. vol. 13 (1929) pp. 73-116. · JFM 55.0151.01
[29] John von Neumann, Zusatz zur Arbeit ”Zur allgemeinen...” Fund. Math. vol. 13 (1929) p. 333. Cf. [28]. · JFM 55.0151.02
[30] John von Neumann, Allgemeine Eigenwerttheorie Hermitescher Funktionaloperatoren. Math. Ann. vol. 102 (1929) pp. 49-131. · JFM 55.0824.02
[31] John von Neumann, Zur Algebra der Funktionaloperatoren und Theorie der normalen Operatoren, Math. Ann. vol. 102 (1929) pp. 370-427. · JFM 55.0825.02
[32] John von Neumann, Zur Theorie der unbeschränkten Matrizen, J. Reine Angew Math. vol. 161 (1929) pp. 208-236. · JFM 55.0825.01
[33] John von Neumann, Über einen Hilfssatz der Variationsrechnung, Abh. Math. Sem. Hansischen Univ. vol. 8 (1930) pp. 28-31. · JFM 56.0440.04
[34] J. von Neumann, Über Funktionen von Funktionaloperatoren, Ann. of Math. (2) 32 (1931), no. 2, 191 – 226 (German). · JFM 57.0469.01 · doi:10.2307/1968185
[35] John von Neumann, Algebraische Repräsentanten der Funktionen ”bis auf eine Menge vom Maasse Null,” J. Reine Angew. Math. vol. 161 (1931) pp. 109-115. · Zbl 0003.10602
[36] John von Neumann, Die Eindeutigkeit der Schrödingerschen Operatoren, Math. Ann. vol. 104 (1931) pp. 570-578. · Zbl 0001.24703
[37] John von Neumann, Bemerkungen zu den Ausführungen von Herrn St. Lesniewski über meine Arbeit ”Zur Hilbertschen Beweistheorie,” Fund. Math. vol. 17 (1931) pp. 331-334. · Zbl 0003.05001
[38] George W. Mackey, von Neumann and the early days of ergodic theory, The legacy of John von Neumann (Hempstead, NY, 1988) Proc. Sympos. Pure Math., vol. 50, Amer. Math. Soc., Providence, RI, 1990, pp. 25 – 38. · doi:10.1090/pspum/050/1067749
[39] Donald S. Ornstein, von Neumann and ergodic theory, The legacy of John von Neumann (Hempstead, NY, 1988) Proc. Sympos. Pure Math., vol. 50, Amer. Math. Soc., Providence, RI, 1990, pp. 39 – 42. · doi:10.1090/pspum/050/1067750
[40] J. von Neumann, Über adjungierte Funktionaloperatoren, Ann. of Math. (2) 33 (1932), no. 2, 294 – 310 (German). · Zbl 0004.21603 · doi:10.2307/1968331
[41] John von Neumann, Proof of the quasi-ergodic hypothesis, Proc. Nat. Acad. Sci. U.S.A. vol. 18 (1932) pp. 70-82. · JFM 58.1271.03
[42] John von Neumann, Physical applications of the quasi-ergodic hypothesis, Proc. Nat. Acad. Sci. U.S.A. vol. 18 (1932) pp. 263-266. · Zbl 0006.22703
[43] John von Neumann, Dynamical systems of continuous spectra. With B. O. Koopman. Proc. Nat. Acad. Sci. U.S.A. vol. 18 (1932) pp. 255-263. · Zbl 0006.22702
[44] J. von Neumann, Über einen Satz von Herrn M. H. Stone, Ann. of Math. (2) 33 (1932), no. 3, 567 – 573 (German). · Zbl 0005.16402 · doi:10.2307/1968535
[45] J. von Neumann, Einige Sätze über messbare Abbildungen, Ann. of Math. (2) 33 (1932), no. 3, 574 – 586 (German). · Zbl 0005.05603 · doi:10.2307/1968536
[46] J. von Neumann, Zur Operatorenmethode in der klassischen Mechanik, Ann. of Math. (2) 33 (1932), no. 3, 587 – 642 (German). · Zbl 0005.12203 · doi:10.2307/1968537
[47] J. von Neumann, Züsatze zur Arbeit ”zur Operatorenmethode...”, Ann. of Math. (2) 33 (1932), no. 4, 789 – 791 (German). , https://doi.org/10.2307/1968225 Johann von Neumann, Mathematische Grundlagen der Quantenmechanik, Dover Publictions, N. Y., 1943 (German).
[48] J. von Neumann, Die Einführung analytischer Parameter in topologischen Gruppen, Ann. of Math. (2) 34 (1933), no. 1, 170 – 190 (German). · Zbl 0006.30003 · doi:10.2307/1968347
[49] John von Neumann, A koordinâta-mérés pontosságának határai az elektron Dirac-féle elméletében (Über die Grenzen der Koordinatenmessungs-Genauigkeit in der Diracschen Theorie des Elektrons), Mat. es Termeszettud . . . Ertesito vol. 50 (1933) pp. 366-385.
[50] P. Jordan, J. von Neumann, and E. Wigner, On an algebraic generalization of the quantum mechanical formalism, Ann. of Math. (2) 35 (1934), no. 1, 29 – 64. · JFM 60.0902.02 · doi:10.2307/1968117
[51] J. V. Neumann, Zum Haarschen Maß in topologischen Gruppen, Compositio Math. 1 (1935), 106 – 114 (German). · JFM 60.0356.11
[52] J. v. Neumann, Almost periodic functions in a group. I, Trans. Amer. Math. Soc. 36 (1934), no. 3, 445 – 492. · JFM 60.0357.01
[53] John von Neumann, The Dirac equation in projective relativity. With A. H. Taub and O. Veblen. Proc. Nat. Acad. Sci. U.S.A. vol. 20 (1934) pp. 383-388. · Zbl 0009.38104
[54] John von Neumann, On complete topological spaces, Trans. Amer. Math. Soc. 37 (1935), no. 1, 1 – 20. · Zbl 0011.16403
[55] S. Bochner and J. von Neumann, Almost periodic functions in groups. II, Trans. Amer. Math. Soc. 37 (1935), no. 1, 21 – 50. · JFM 61.0470.06
[56] S. Bochner and J. Von Neumann, On compact solutions of operational-differential equations. I, Ann. of Math. (2) 36 (1935), no. 1, 255 – 291. · Zbl 0011.02002 · doi:10.2307/1968678
[57] John von Neumann, Charakterisierung des Spektrums eines Integraloperators. Actualités Scientifiques et Industrielles Series, 229. Exposés Math, publiés à la mémoire de J. Herbrand, no. 13, Paris, 1935, 20 pp. · Zbl 0011.30801
[58] Michael Stöltzner, Bell, Bohm, and von Neumann: some philosophical inequalities concerning no-go theorems and the axiomatic method, Non-locality and modality (Cracow, 2001) NATO Sci. Ser. II Math. Phys. Chem., vol. 64, Kluwer Acad. Publ., Dordrecht, 2002, pp. 37 – 58.
[59] P. Jordan and J. Von Neumann, On inner products in linear, metric spaces, Ann. of Math. (2) 36 (1935), no. 3, 719 – 723. · JFM 61.0435.05 · doi:10.2307/1968653
[60] John von Neumann, The determination of representative elements in the residual classes of a Boolean algebra. With M. H. Stone. Fund. Math. vol. 25 (1935) pp. 353-378. · Zbl 0012.24403
[61] J. Von Neumann, On a certain topology for rings of operators, Ann. of Math. (2) 37 (1936), no. 1, 111 – 115. · Zbl 0014.16006 · doi:10.2307/1968692
[62] F. J. Murray and J. Von Neumann, On rings of operators, Ann. of Math. (2) 37 (1936), no. 1, 116 – 229. · Zbl 0014.16101 · doi:10.2307/1968693
[63] John von Neumann, On an algebraic generalization of the quantum mechanical formalism (Part I). Rec. Math (Mat. Sbornik) N. S. vol. 1 (1936) pp. 415-484. · JFM 62.0447.11
[64] John von Neumann, The uniqueness of Haar’s measure, Rec. Math (Mat. Sbornik) N. S. vol. 1 (1936) pp. 721-734. · Zbl 0018.29803
[65] Garrett Birkhoff and John von Neumann, The logic of quantum mechanics, Ann. of Math. (2) 37 (1936), no. 4, 823 – 843. · Zbl 0015.14603 · doi:10.2307/1968621
[66] John von Neumann, Continuous geometry, Proc. Nat. Acad. Sci. U.S.A. vol. 22 (1936) pp. 92-100. · Zbl 0014.22307
[67] John von Neumann, Examples of continuous geometries, Proc. Nat. Acad. Sci. U.S.A. vol. 22 (1936) pp. 101-108. · Zbl 0014.22308
[68] John von Neumann, On regular rings. Proc. Nat. Acad. Sci. U.S.A. vol. 22 (1936) pp. 707-713. · Zbl 0015.38802
[69] C. Kuratowski and J. Von Neumann, On some analytic sets defined by transfinite induction, Ann. of Math. (2) 38 (1937), no. 2, 521 – 525. · Zbl 0017.34403 · doi:10.2307/1968568
[70] F. J. Murray and J. von Neumann, On rings of operators. II, Trans. Amer. Math. Soc. 41 (1937), no. 2, 208 – 248. · Zbl 0017.36001
[71] John von Neumann, Some matrix-inequalities and metrization of matrix-space. Tomck. Univ. Rev. vol. 1 (1937) pp. 286-300.
[72] John von Neumann, Über ein ökonomisches Gleichungssystem und eine Verallgemeinerung des Brouwerschen Fixpunktsatzes, Erg. eines Math. Coll., Vienna, edited by K. Menger, vol. 8, 1937, pp. 73-83. · Zbl 0017.03901
[73] John von Neumann, Algebraic theory of continuous geometries, Proc. Nat. Acad. Sci. U.S.A. vol. 23 (1937) pp. 16-22. · Zbl 0016.05001
[74] Jeffrey Bub, von Neumann’s theory of quantum measurement, John von Neumann and the foundations of quantum physics (Budapest, 1999) Vienna Circ. Inst. Yearb., vol. 8, Kluwer Acad. Publ., Dordrecht, 2001, pp. 63 – 74.
[75] J. von Neumann, On infinite direct products, Compositio Math. 6 (1939), 1 – 77. · JFM 64.0377.01
[76] J. v. Neumann and I. Halperin, On the transitivity of perspective mappings, Ann. of Math. (2) 41 (1940), 87 – 93. · Zbl 0022.38003 · doi:10.2307/1968822
[77] John von Neumann, On rings of operators, III, Ann. of Math. vol. 41 (1940) pp. 94-161. · Zbl 0023.13303
[78] J. v. Neumann and E. P. Wigner, Minimally almost periodic groups, Ann. of Math. (2) 41 (1940), 746 – 750. · JFM 66.0544.02 · doi:10.2307/1968853
[79] J. von Neumann, R. H. Kent, H. R. Bellinson, and B. I. Hart, The mean square successive difference, Ann. Math. Statistics 12 (1941), 153 – 162. · Zbl 0025.20003
[80] J. von Neumann and I. J. Schoenberg, Fourier integrals and metric geometry, Trans. Amer. Math. Soc. 50 (1941), 226 – 251. · Zbl 0028.41002
[81] John von Neumann, Distribution of the ratio of the mean square successive difference to the variance, Ann. Math. Statistics 12 (1941), 367 – 395. · Zbl 0060.29911
[82] John von Neumann, A further remark concerning the distribution of the ratio of the mean square successive difference to the variance, Ann. Math. Statistics 13 (1942), 86 – 88. · Zbl 0060.29912
[83] Paul R. Halmos and John von Neumann, Operator methods in classical mechanics. II, Ann. of Math. (2) 43 (1942), 332 – 350. · Zbl 0063.01888 · doi:10.2307/1968872
[84] S. Chandrasekhar and J. von Neumann, The statistics of the gravitational field arising from a random distribution of stars. I. The speed of fluctuations, Astrophys. J. 95 (1942), 489 – 531. · JFM 68.0657.04 · doi:10.1086/144420
[85] B. I. Hart, Tabulation of the probabilities for the ratio of the mean square successive difference to the variance, Ann. Math. Statistics 13 (1942), 207 – 214. · Zbl 0060.30001
[86] John von Neumann, Approximative properties of matrices of high finite order, Portugaliae Math. 3 (1942), 1 – 62. · Zbl 0026.23302
[87] F. J. Murray and J. von Neumann, On rings of operators. IV, Ann. of Math. (2) 44 (1943), 716 – 808. · Zbl 0060.26903 · doi:10.2307/1969107
[88] S. Chandrasekhar and J. von Neumann, The statistics of the gravitational field arising from a random distribution of stars. II. The speed of fluctuations; dynamical friction; spatial correlations, Astrophys. J. 97 (1943), 1 – 27. · Zbl 0060.46305 · doi:10.1086/144487
[89] John von Neumann, On some algebraical properties of operator rings, Ann. of Math. (2) 44 (1943), 709 – 715. · Zbl 0060.26902 · doi:10.2307/1969106
[90] John von Neumann, A certain zero-sum two-person game equivalent to the optimal assignment problem, Contributions to the theory of games, vol. 2, Annals of Mathematics Studies, no. 28, Princeton University Press, Princeton, N. J., 1953, pp. 5 – 12. · Zbl 0050.14105
[91] John von Neumann, Solution of linear systems of high order. With V. Bargmann and D. Montgomery. Report prepared for Navy BuOrd under Contract Nord-9596-25, Oct. 1946, 85 pp.
[92] Arthur W. Burks, Herman H. Goldstine, and John von Neumann, Preliminary Discussion of the Logical Design of an Electronic Computing Instrument, Institute for Advanced Study, Princeton, N. J., 1947. 2d ed. Robert Schatten and John von Neumann, The cross-space of linear transformations. II, Ann. of Math. (2) 47 (1946), 608 – 630. , https://doi.org/10.2307/1969096 Robert Schatten and John von Neumann, The cross-space of linear transformations. III, Ann. of Math. (2) 49 (1948), 557 – 582. · Zbl 0032.03201 · doi:10.2307/1969045
[93] John von Neumann, The mathematician, The Works of the Mind, The University of Chicago Press, Chicago, Ill., 1947, pp. 180 – 196. Edited for the Committee on Social Thought by Robert B. Heywood.
[94] John von Neumann and H. H. Goldstine, Numerical inverting of matrices of high order, Bull. Amer. Math. Soc. 53 (1947), 1021 – 1099. · Zbl 0031.31402
[95] Herman H. Goldstine and John von Neumann, Planning and Coding of Problems for an Electronic Computing Instrument, Institute for Advanced Study, Princeton, N. J., 1947.
[96] John von Neumann, Planning and coding of problems for an electronic computing instrument. Part II, Vol. II. With H. H. Goldstine. Report prepared for U. S. Army Ord. Dept. under Contract W-36-034-ORD-7481, 1948, 68 pp.
[97] John von Neumann, Planning and coding of problems for an electronic computing instrument. Part II, Vol. III. With H. H. Goldstine. Report prepared for U. S. Army Ord. Dept. under Contract W-36-034-ORD-7481, 1948, 23 pp.
[98] John von Neumann, On the theory of stationary detonation waves, File No. X122, September 20, 1948, BRL, Aberdeen Proving Ground, Md., 26 pp.
[99] John von Neumann, On rings of operators. Reduction theory, Ann. of Math. (2) 50 (1949), 401 – 485. · Zbl 0034.06102 · doi:10.2307/1969463
[100] J. Von Neumann and R. D. Richtmyer, A method for the numerical calculation of hydrodynamic shocks, J. Appl. Phys. 21 (1950), 232 – 237. · Zbl 0037.12002
[101] John von Neumann, Functional Operators–Vol. I: Measures and Integrals, Ann. of Math. Studies, no. 21, 261 pp.; Vol. II: The geometry of orthogonal spaces, Ann. of Math. Studies, no. 22, 107 pp., Princeton University Press, 1950.
[102] G. W. Brown and J. von Neumann, Solutions of games by differential equations, Contributions to the Theory of Games, Annals of Mathematics Studies, no. 24, Princeton University Press, Princeton, N. J., 1950, pp. 73 – 79. · Zbl 0041.25502
[103] John von Neumann, Statistical treatment of values of first 2000 decimal digits of e and of Pi calculated on the ENIAC. With N. C. Metropolis and G. Reitwiesner. Mathematical Tables and Other Aids to Computation vol. 4 (1940) pp. 109-111.
[104] J. G. Charney, R. Fjörtoft, and J. von Neumann, Numerical integration of the barotropic vorticity equation, Tellus 2 (1950), 237 – 254.
[105] I. E. Segal and John von Neumann, A theorem on unitary representations of semisimple Lie groups, Ann. of Math. (2) 52 (1950), 509 – 517. · Zbl 0045.30901 · doi:10.2307/1969429
[106] Johann von Neumann, Eine Spektraltheorie für allgemeine Operatoren eines unitären Raumes, Math. Nachr. 4 (1951), 258 – 281 (German). · Zbl 0042.12301 · doi:10.1002/mana.3210040124
[107] John von Neumann, The future of high-speed computing, Proc., Camp. Sem., Dec. 1949, published and copyrighted by IBM, 1951, p. 13.
[108] Problems of Cosmical Aerodynamics, Proceedings of the Symposium on the Motion of Gaseous Masses of Cosmical Dimensions held at Paris, August 16 – 19, 1949., Central Air Documents Office, Dayton, Ohio, 1951, pp. iii+v+237.
[109] Herman H. Goldstine and John von Neumann, Numerical inverting of matrices of high order. II, Proc. Amer. Math. Soc. 2 (1951), 188 – 202. · Zbl 0043.12301
[110] John von Neumann, Various techniques used in connection with random digits (Chap. 13) of proceedings of symposium on ”Monte Carlo Method” held June-July 1949 in Los Angeles. Nat’l. BuStandards, Applied Math. Series 12, June 11, 1951, pp. 36-38.
[111] John von Neumann, The general and logical theory of automata, Cerebral Mechanisms in Behavior. The Hixon Symposium, John Wiley & Sons, Inc., New York, N. Y.; Chapman & Hall, Ltd., London, 1951, pp. 1 – 31; discussion, pp. 32 – 41.
[112] John von Neumann, Continuous geometry, Princeton Landmarks in Mathematics, Princeton University Press, Princeton, NJ, 1998. With a foreword by Israel Halperin; Reprint of the 1960 original; Princeton Paperbacks. · Zbl 0919.51002
[113] John von Neumann, A certain zero-sum two-person game equivalent to the optimal assignment problem, Contributions to the theory of games, vol. 2, Annals of Mathematics Studies, no. 28, Princeton University Press, Princeton, N. J., 1953, pp. 5 – 12. · Zbl 0050.14105
[114] D. B. Gillies, J. P. Mayberry, and J. von Neumann, Two variants of poker, Contributions to the theory of games, vol. 2, Annals of Mathematics Studies, no. 28, Princeton University Press, Princeton, N. J., 1953, pp. 13 – 50. · Zbl 0050.14104
[115] John von Neumann, A numerical method to determine optimum strategy, Naval Res. Logist. Quart. 1 (1954), 109 – 115. · doi:10.1002/nav.3800010207
[116] John von Neumann, The role of mathematics in the sciences and in society. Address before Assoc. of Princeton Graduate Alumni, June 16, 1954.
[117] John von Neumann, A numerical method to determine optimum strategy, Naval Res. Logist. Quart. 1 (1954), 109 – 115. · doi:10.1002/nav.3800010207
[118] John von Neumann, The NORC and problems in high speed computing. Speech at first public showing of IBM Naval Ordnance Research Calculator, December 2, 1954. · Zbl 0998.01557
[119] Huzihiro Araki, Some of the legacy of John von Neumann in physics: theory of measurement, quantum logic, and von Neumann algebras in physics, The legacy of John von Neumann (Hempstead, NY, 1988) Proc. Sympos. Pure Math., vol. 50, Amer. Math. Soc., Providence, RI, 1990, pp. 119 – 136. · doi:10.1090/pspum/050/1067755
[120] John von Neumann, Can we survive technology?, Fortune, June, 1955.
[121] A. Devinatz, A. E. Nussbaum, and J. von Neumann, On the permutability of self-adjoint operators, Ann. of Math. (2) 62 (1955), 199 – 203. · Zbl 0065.10401 · doi:10.2307/1969674
[122] John von Neumann, Continued fraction expansion of 21/3. With Bryant Tuckerman. Mathematical Tables and Other Aids to Computation, IX, no. 49, January, 1955.
[123] Herman H. Goldstine and John von Neumann, Blast wave calculation, Comm. Pure Appl. Math. 8 (1955), 327 – 353. · Zbl 0064.20703 · doi:10.1002/cpa.3160080207
[124] J. von Neumann, Probabilistic logics and the synthesis of reliable organisms from unreliable components, Automata studies, Annals of mathematics studies, no. 34, Princeton University Press, Princeton, N. J., 1956, pp. 43 – 98.
[125] John von Neumann, Impact of atomic energy on the physical and chemical sciences. Speech at M.I.T. Alumni Day Symposium. Tech. Rev., Nov. 1955, pp. 15-17.
[126] J. von Neumann, Almost periodic functions in a group. I, Bull. Amer. Math. Soc. vol. 40 (1934) p. 224. · Zbl 0009.34902
[127] J. von Neumann, On complete topological spaces, Bull. Amer. Math. Soc. vol. 41 (1935) p. 35. · JFM 61.0632.04
[128] S. Bochner and J. von Neumann, Almost periodic functions in groups. II, Bull. Amer. Math. Soc. vol. 41 (1935) p. 35. · JFM 61.0479.07
[129] J. von Neumann, Representations and ray-representations in quantum mechanics, Bull. Amer. Math. Soc. vol. 41 (1935) p. 305. · JFM 61.0937.02
[130] J. von Neumann, On the uniqueness of invariant Lebesgue measures, Bull. Amer. Math. Soc. vol. 42 (1936) p. 343. · JFM 62.0447.01
[131] I. J. Schoenberg and J. von Neumann, Fourier integrals and metric geometry, Bull. Amer. Math. Soc. vol. 42 (1936) p. 632. · JFM 62.0486.07
[132] F. J. Murray and J. von Neumann, On rings of operators. II, Bull. Amer. Math. Soc. vol. 42 (1936) p. 808. · JFM 62.0449.03
[133] I. Halperin and J. von Neumann, On the transitivity of perspective mappings in complemented modular lattices, Bull. Amer. Math. Soc. vol. 43 (1937) p. 37.
[134] I. J. Schoenberg and J. von Neumann, Fourier integrals and metric geometry, II, Bull. Amer. Math. Soc. vol. 45 (1939) p. 79. · JFM 62.0486.07
[135] Paul R. Halmos and John von Neumann, Operator methods in classical mechanics. II, Ann. of Math. (2) 43 (1942), 332 – 350. · Zbl 0063.01888 · doi:10.2307/1968872
[136] S. M. Ulam and J. von Neumann, Random ergodic theorems, Bull. Amer. Math, soc. vol. 51 (1945) p. 660.
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