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References
Husemoller, D.:Fibre bundles, McGraw-Hill, 1966.
Steenrod, N.E.:The topology of fibre bundles, Princeton Univ.
Kobayashi, S. and Nomizu, K.:Foundations of differential geometry, 1, Wiley, 1963.
Sternberg, S.:Lectures on differential geometry, Prentice-Hall, 1964.
Berger, M.: ‘Sur les groupes d’holonomie homogene des varices a connexion affine et des varietes riemanniennes’,Bull. Soc. Math. France 83 (1955), 279–330.
Chern, S.S.: ‘The geometry of (G-structures’,Bull. Amer. Math. Soc.72 (1966), 167–219.
Kobayashi, S.:Transformation groups in differential geometry, Springer, 1972.
Molino, P.:Théorie des G-structures: leproblème d’équivalence, Springer, 1977.
Morimoto, T.: ‘Sur le problème d’équivalence des structures eometriques’,C.R. Acad. Sci. Paris 292, no. 1 (1981), 63–66. English summary.
Singer, I.M. and Sternberg, S.: ‘The infinite groups of Lie and Cartan. I. The transitive groups’,J. d’Anal. Math.15 (1965), 1–114.
Pollack, A.S.: ‘The integrability problem for pseudogroup structures’,J. Diff Geom.9, no. 3 (1974), 355–390.
Galerkin, B.G.: ‘On electrical circuits for the approximate solution of the Laplace equation’,Vestnik Inzh.19 (1915), 897–908 (in Russian).
Michlin, S.G. [S.G. Mikhlin]:Variationsmethoden der mathematischen Physik, Akademie-Verlag, 1962 (translated from the Russian).
Vaínberg, M.M.:Variational methods and methods of nonlinear operators in the theory of nonlinear equations, Wiley, 1973 (translated from the Russian).
Marchuk, G.I.:Methods of numerical mathematics, Springer, 1982 (translated from the Russian).
Mitchel, A.R. and Wait, R.:The finite element method in partial differential equations, Wiley, 1977.
Stoer, J. and Bulirsch, R.:Einführung in die numerische Mathematik, II, Springer, 1973.
Fletcher, C.A.J.:Computational Galerkin methods, Springer, 1984.
Fock, V.A. [V.A. Fok]:The theory of space, time and gravitation, Macmillan, 1964 (translated from the Russian).
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Rozenfel’d, B.A.:Non-Euclidean spaces, Moscow, 1969 (in Russian).
Penrose, R. and Wheeler, J.A.: ‘Structure of space-time’, in C.M. DeWitt (ed.):Batelle Rencontres 1967 Lectures in Math. Physics, Benjamin, 1968.
SAVELOV, A.A.:Plane curves, Moscow, 1960 (in Russian).
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Serre, J.-P.:Cohomologie Galoisienne, Springer, 1964.
Serre, J.-P.:Groupes algebrique et corps des classes, Hermann, 1959.
Cassels, J.W.S. and Fröhlich, A. (eds.):Algebraic number theory, Acad. Press, 1986.
Koch, H.:Galoissche Theorie der p-Erweiterungen, Deutsch. Verlag Wissenschaft., 1970.
Artin, E. and Tate, J.:Class field theory, Benjamin, 1967.
Serre, J.-P.:Local fields, Springer, 1979 (translated from the French).
Borel, A. and Serre, J.-P.: ‘Theoremes de finitude en cohomologie Galoisienne’,Comment Math. Helv.39 (1964), 111–164.
Theorie des topos et cohomologie etale des schemas’, in A. Grothendieck, J.-L. Verdier and M. Artin (eds.):Sem. Geom. Alg.4, Vol. 1–3, Springer, 1972.
Bruhat, F. and Tits, J.: ‘Groupes réductifs sur un corps local I. Donnees radicielles valuées’,Publ. Math. IHES, no. 41 (1972), 5–252.
Borel, A.: ‘Some finiteness properties of adele groups over number fields’,Publ. Math. IHES, no. 16 (1963), 5–30.
Steinberg, R.: ‘Regular elements of semisimple algebraic groups’,Publ. Math. IHES, no. 25 (1965), 49–80.
Kneser, M.: ‘Galois-Kohomologie halbeinfacher algebraischer Gruppen uber p-adische Korpern I’,Math. Z.88 (1965), 40–47.
Kneser, M.: ‘Galois-Kohomologie halbeinfacher algebraischer Gruppen uber p-adische Korpern II’,Math. Z.89 (1965), 250 - 272.
Harder, G.: ‘Uber die Galoiskohomologie halbeinfacher Matrizengruppen I’,Math. Z.90 (1965), 404–428.
Harder, G.: ‘Uber die Galoiskohomologie halbeinfacher Matrizengruppen II’,Math. Z.92 (1966), 396–415.
Manin, Yu. I.:Cubic forms, North-Holland, 1974 (translated from the Russian).
Colliot-Théléne, J.-L. and Sansuc, J.J.: ‘La descente sur les variétés rationnelles II’,Duke Math. J.54 (1987), 375–492.
Voskresenskit, V.E.:Algebraic tori, Moscow, 1977 (in Russian).
Chernusov, V.I.: ‘On the Hasse principle for groups of type E8’, (TO appear) (in Russian).
Bruhat, F. and Tits, J.: ‘Groupes réductifs sur un corps local III. Complements et applications à la cohomologie Galoisiènne’,J. Fac. Sci. Univ. Tokyo 34 (1987), 671–698.
Harder, G.: ‘Chevalley groups over function fields and automorphic forms’,Ann. of Math. 100 (1974), 249–306.
Albert, A.:Structure of algebras, Amer. Math. Soc., 1939, p. 143.
Brauer, R., Hasse, H. and Noether, E.: ‘Beweis eines Haupsatzes in der Theorie der Algebren’,J. Reine Angew. Math.107 (1931), 399–404.
Cohn, P.M.:Universal algebra, Reidel, 1981.
Kurosh, A.G.:Lectures on general algebra, Chelsea, 1963 (translated from the Russian).
Galois, E.:Écrits et mémoires d’E. Galois, Gauthier-Villars, 1962.
Waerden, B.L. Van Der:Algebra, 1–2, Springer, 1967–1971 (translated from the German).
Tschebotarow, N.G. [N.G. Chebotarev]:Grundzüge der Galois’schen Theorie, Noordhoff, 1950 (translated from the Russian).
Bourbaki, N.:Algebra, Springer, 1989, Chapt. 1–3 (translated from the French).
Bourbaki, N.:Algebra, Springer, 1989, Chapt. 1–3 (translated from the French).
Lang, S.:Algebra, Addison-Wesley, 1984.
Postnikov, M.M.:Galois theory, Moscow, 1962 (in Russian).
Jacobson, N.:The theory of rings, Amer. Math. Soc., 1943.
Galois, E.:Écrits et mémoires d’E. Galois, Gauthier-Villars, 1962.
Tschebotaröw, N.G. [N.G. Chebotarev]:Grundzüge der Galois’schen Theorie, Noordhoff, 1950 (translated from the Russian).
Chebotarev, N.G.:Galois theory, Moscow-Leningrad, 1936 (in Russian).
Postnikov, M.M.:Fundamentals of Galois theory, Noordhoff, 1962 (translated from the Russian).
Postnikov, M.M.:Galois theory, Moscow, 1963 (in Russian).
Waerden, B.L. Van Der:Algebra, 1–2, Springer, 1967–1971 (translated from the German).
Lang, S.:Algebra, Addison-Wesley, 1974.
Bourbaki, N.:Elements of mathematics. Algebra: Modules. Rings. Forms, 2, Addison-Wesley, 1975, Chapt. 4; 5; 6 (translated from the French).
Koch, H.:Galoische Theorie der p-Erweiterungen, Deutsch. Verlag Wissenschaft., 1970.
Artin, E.:Galois theory, Notre Dame Univ., Indiana, 1948.
Tschebotarow, N.G. [N.G. Chebotarev]:Grundzüge der Galois’schen Theorie, Noordhoff, 1950 (translated from the Russian).
Shafarevich, I.R.: ‘On the construction of a field with a given Galois group of order Ia’,Izv. Akad. Nauk SSSR 18, no. 2 (1954), 261–296 (in Russian).
Shafarevich, I.R.: ‘The construction of an algebraic number field with a given solvable Galois group’,Izv. Akad. Nauk SSSR 18, no. 3 (1954), 525–578 (in Russian).
Belyt, G.V.: ‘On extensions of the maximal cyclotomic field having a given classical Galois group’,J. Reine Angew. Math.341 (1983), 147–156.
Matzat, B.H.:Konstruktive Galoistheorie, Lecture notes in math., 1284, Springer, 1987.
J.P.Serre: ‘Groupes de Galois sur’,Q. Sem. Bourbaki Exp.689 (1987).
Jacobson, N.:Structure of rings, Amer. Math. Soc., 1956.
Chase, S.U. and Swedler, M.E.:Hopf algebras and Galois theory, Springer, 1969.
Meyer, F. DE and Ingraham, E.:Separable algebras over commutative rings, Springer, 1971.
MAGID, A.R.:The separable Galois theory of commutative rings, M. Dekker, 1974.
Chase, S.U., Harrison, D.K. and Rosenberg, A.:Galois theory and Galois cohomology of commutative rings, Amer Math. Soc., 1965.
Arthreya, K.B. and Ney, P.E.:Branching processes, Springer, 1972.
Harris, Th. E.:The theory of branching processes, Springer, 1963.
Karlin, S.:Mathematical methods and theory in games, programming and economics, Addison-Wesley, 1959.
Dubins, L.E. and Savage, L.J.:How to gamble if you must: inequalities for stochastic processes, McGraw-Hill, 1965.
Milnor, J. and Shapley, L.S.: ‘On games of survival’, inContributions to the theory of games, Vol. 3, Princeton Univ. Press, 1957, pp. 15–45.
Blackwell, D.: ‘On multi-component attrition games’,Naval Res. Logist. Quart.1 (1954), 210–216.
Romanovskií, I.V.: ‘Game-type random walks’,Theor. Probabl Appl.6 (1961), 393–396. (Teor. Veroyatnost. i Primenen.6, no. 4 (1961), 426–429 )
Luce, R.D. and Raiffa, H.:Games and decisions, Wiley, 1957.
Berge, C.:Théorie générale des jeux à n personnes, Gauthier- Villars, 1957.
Kummer, B.:Spiele auf Graphen, Birkhaüser, 1980.
Berge, C.:Graphs and hypergraphs, North-Holland, 1977 (translated from the French).
Conway, J.H.:On numbers and games, Acad. Press, 1976.
Berlekamp, E.R., Conway, J.H. and Guy, R.K.:Winning ways for your mathematical plays, 1–2, Acad. Press, 1982.
Karlin, S.:Mathematical methods and theory in games, programming and economics, Addison-Wesley, 1959.
Luce, R.D. and Raiffa, H.:Games and decisions, Wiley, 1957.
Germeíer, Yu. B.:Games with non-conflicting interests, Moscow, 1972 (in Russian).
Basar, T. and Olsder, G.J.:Dynamic noncooperative game theory, Acad. Press, 1982.
Luk, P.B., Ho, Y.C. and Olsder, G.J.: ‘A control-theoretical view on incentives’,Automatica 18 (1982), 167–179.
Neumann, J. Von and Morgenstern, O.:Theory of games and economic behavior, Princeton Univ. Press, 1947.
Luce, R.D. and Raiffa, H.:Games and decisions, Wiley, 1957.
Karlin, S.:Mathematical methods and theory in games, programming and economics, Addison-Wesley, 1959.
Parthasarathy, T. and Raghavan, T.E.S.:Some topics in two-person games, Amer. Elsevier, 1971.
Vorob’ev, N.N.:Entwicklung der Spieltheorie, Deutsch. Verlag Wissenschaft., 1975.
The theory of games. Annotated index of publications up to 1968, Leningrad, 1976 (in Russian).
Vorob’ev, N.N.:Game theory, Springer, 1977 (translated from the Russian).
Aubin, J.P.:Mathematical methods of game and economic theory, North-Holland, 1979 (translated from the French).
The theory of games. Annotated index of publications 1969–1974, Leningrad, 1980 (in Russian).
Rosenmüller, J.:The theory of games and markets, North- Holland, 1981.
Owen, G.:Game theory, Acad. Press, 1982.
Shubik, M.:Game theory in the social sciences, M.I.T., 1982.
Shubik, M.:A game-theoretic approach to political economy, M.I.T., 1984.
Vorob’ev, N.N.:Foundations of game theory, Leningrad, 1984 (in Russian).
Isaacs, R.:Differential games, Wiley, 1965.
Basar, T. and Olsder, G.J.:Dynamic noncooperative game theory, Acad. Press, 1982.
Krasovskit, N. and Subbotin, A.I.:Game theoretical control problems, Springer, 1988 (translated from the Russian).
Shubik, M. (ED.):The mathematics of conflict, North-Holland, 1983.
Driessen, T.:Cooperative games, solutions and applications, Kluwer, 1988.
Damme, E. Van:Stability and perfection of Nash equilibria, Springer, 1987.
Lemke, C.E. and Howson, J.T., JR.: ‘Equilibrium points of bimatrix games’,SIAM J. Appl. Math.12 (1964), 413–423.
Scarf, H.E.:The computation of economic equilibria, Yale Univ. Press, 1973.
Szép, J. and Forgó, F.:Introduction to the theory of games, Reidel, 1985.
Sarmanov, I.O.:Trudy Gidrologichesk. Inst.162 (1969), 37–61.
Myller-Lebedeff, W.: ‘Die Theorie der Integralgleichungen in Anwendung auf einige Reihenentwicklungen’,Math. Ann.64 (1907), 388–416.
Johnson, N.L. and Kotz, S.:Distributions in statistics, 2. Continuous multivariate distributions, Wiley, 1972.
Pagurova, V.I.:Tables of the incomplete gamma-function, Moscow, 1963 (in Russian).
Pearson, K. (ed.):Tables of the incomplete gamma function, Cambridge Univ. Press, 1957.
Johnson, N.L. and Kotz, S.:Distributions in statistics, 1. Continuous univariate distributions, Wiley, 1970.
Comrie, L.J.:Chambers’s six-figure mathematical tables, II, Chambers, 1949.
Whittaker, E.T. and Watson, G.N.:A course of modern analysis, Cambridge Univ. Press, 1952.
Bateman, H. and Erdélyi, A.:Higher transcendental functions. The Gamma function. The hypergeometric function. Legendre functions, 1, McGraw-Hill, 1953.
Bourbaki, N.:Elements of mathematics. Functions of a real variable, Addison-Wesley, 1976 (translated from the French).
Handbook of mathematical libraries:Math. anal., functions, limits, series, continued fractions, Moscow, 1961 (in Russian).
Nielsen, N.:Handbuch der Theorie der Gammafunktion, Chelsea, reprint, 1965.
Sonin, N. Ya.:Studies on cylinder functions and special polynomials, Moscow, 1954 (in Russian).
Voronoí, G.F.:Collected works, Vol. 2, Kiev, 1952, pp. 239- 368 (in Russian).
Jahnke, E. and Emde, F.:Tables of functions with formulae and curves, Dover, reprint, 1945 (translated from the German).
Angot, A.:Compléments de mathématiques. A l’usage des ingenieurs de l’electrotechnique et de télécommunications, C.N.E.T., 1957.
Artin, E.:The gamma function, Holt, Rinehart amp; Winston, 1964.
Askey, R.: ‘The q-Gamma and q-Beta functions’,Appl. Anal.8 (1978), 125–141.
Gårding, L.: ‘Dirichlet’s problem for linear elliptic partial differential equations’,Math. Scand.1 (1953), 55–72.
Yosida, K.:Functional analysis, Springer, 1980.
Hörmander, L.:The analysis of linear partial differential operators, 3, Springer, 1985.
Serrin, J.: ‘Mathematical principles of classical fluid mechanics’, in S. Flugge (ed.):Handbuch der Physik, Vol. 8/1, Springer, 1959, pp. 125–263.
Sedov, L.I.:A course in continuum mechanics, 1–4, Wolters- Noordhoff, 1971-1972 (translated from the Russian).
Landau, L.D. and Lifshits, E.M.:Mechanics, Pergamon, 1965 (translated from the Russian).
Kochin, N.E., Kibel’, I.A. and Roze, N.V.:Theoretical hydro-dynamics, Interscience, 1964 (translated from the Russian).
Branover, G.G. and Tsinober, A.M.:Magnetic hydrodynamics of incompressible media, Moscow, 1970 (in Russian).
Rozhdestvenskií, B.L. and Yanenko, N.N.:Systems of quasilinear equations and their applications to gas dynamics, Amer. Math. Soc., 1983 (translated from the Russian).
Courant, R. and Friedrichs, K.O.:Supersonic flow and shock waves, Interscience, 1948.
Liepmann, H.W. and Roshko, A.:Elements of gas dynamics, Wiley, 1957.
Sears, W.R. (ed.):General theory of high speed aerodynamics, Princeton Univ. Press, 1954.
Cercignani, C.:The Boltzmann equation and its applications, Springer, 1988.
Richtmyer, R.D. and Morton, K.:Difference methods for initial-value problems, Wiley (Intersrience), 1967.
Godunov, S.K. and Ryaben’kií, V.S.:Theory of difference schemes, North-Holland, 1964 (translated from the Russian).
Rozhdestvenskií, B.L. and Yanenko, N.N.:Systems of quasilinear equations and their applications to gas dynamics, Amer. Math. Soc., 1983 (translated from the Russian).
Samarskiĭ, A.A.:Theorie der Differenzverfahren, Akad. Verlagsgesell. Geest u. Portig K.-D., 1984 (translated from the Russian).
Zhukov, A.I.: ‘Application of the method of characteristics to the numerical solution of one-dimensional problems of gas dynamics’,Trudy Mat. Inst. Steklov.58 (1960) (in Russian).
Harlow, F.:Numerical methods in hydrodynamics, Moscow, 1967, pp. 316–342 (in Russian; translated from the English).
Dorodnitsyn, A.A.: ‘On a method for the numerical solution of certain nonlinear problems in aerodynamics’, inProc. 3-th All-Union Math. Congress, Vol. 3, Moscow, 1958, pp. 447–453 (in Russian).
Belotserkovskií, O.M.: ‘Numerical methods for solving the stationary equations of gas dynamics’, inNumerical methods for solving problems in the mechanics of continuous media, Moscow, 1969, pp. 101–213 (in Russian).
Yanenko, N.N., Anuchina, N.N., Petrenko, V.E. and Shokin, YU.I.: ‘Methods for the calculations of problems in gas dynamics involving large derivations’,Chisl. Mat. Mekh. Sploshn. Sred.1 (1970), 40–62 (in Russian).
Yanenko, N.N.:The method of fractional steps; the solution of problems of mathematical physics in several variables, Springer, 1971 (translated from the Russian).
Samarskií, A. A. and Popov, Yu. P.:Difference schemes of gas dynamics, Moscow, 1975 (in Russian).
Godunov, S.K., Zabrodin, A.V. and Prokopov, G.P.: ‘A computational scheme for two-dimensional non-stationary problems of gas dynamics and calculation of the flow from a shock wave approaching a stationary state’,USSR Comput. Math. Math. Phys.1, no$16 (1961), 1187–1219. (Zh. Vychisl. Mat. i Mat. Fiz.1, no. 6 (1961), 1020–1050 ).
Baker, A.J.:Finite element computational fluid mechanics, Hemisphere amp; McGraw-Hill, 1983.
Holt, M.:Numerical methods in fluid dynamics, Springer, 1984.
McCormick, S.F.:Multigrid methods, SIAM, 1987.
Peyret, R. and Taylor, T.D.:Computational methods for fluid flow, Springer, 1983.
Temam, R.:Numerical analysis, North-Holland, 1973.
Chaplygin, S.A.: ‘ON gas jets’,NACA Techn. Mem.1063 (1944). (Nauchn. Tr. Moskov. Univ. Mat. Fiz.21 (1904), 1–121)
Shi-I, Bai:The theory of jets, Moscow, 1960 (in Russian; translated from the English).
Kuo, Y.H. and Sears, W.R.: ‘Plane subsonic and transonic potential flows’, in W.R. Sears (ed.):General theory of high speed aerodynamics, Princeton Univ. Press, 1954, pp. 490–582.
Ferri, A.: ‘Supersonic flows with shock waves’, in W.R. Sears (ed.):General theory of high speed aerodynamics, Princeton Univ. Press, 1954, pp. 670–748.
Courant, R. and Friedrichs, K.O.:Supersonic flow and shock waves, Interscience, 1948.
Hill, R. and Pack, D.C.: ‘An investigation, by the method of characteristics, of the lateral expansion of the gases behind a detonating slab of explosive’,Proc. R. Soc. A 191 (1947), 524.
Bers, L.:Mathematical aspects of subsonic and transonic gas dynamics, Wiley, 1958.
Gâteaux, R.: ‘Sur les fonctionnelles continues et les fonctionnelles analytiques’,C.R. Acad. Sci. Paris Sér. I Math.157 (1913), 325–327.
Kolmogorov, A.N. and Fomin, S.V.:Elements of the theory of functions and functional analysis, 1–2, Graylock, 1957–1961 (translated from the Russian).
Ljusternik, L.A. [L.A. Lyusternik] and Sobolew, W.I. [V.I. Sobolev]:Elemente der Funktionalanalysis, H. Deutsch, Frankfurt a. M., 1979 (translated from the Russian).
Averbukh, V.I. and Smolyanov, O.G.: ‘Theory of differentiation in linear topological spaces’,Russian Math. Surveys 22, no$16 (1967), 201–258. (Uspekhi Mat. Nauk 22, no. 6 (1967), 201–260 )
Berger, M.S.:Nonlinearity and functional analysis, Acad. Press, 1977.
Ljusternik, L.A. [L.A. Lyusternik] and Sobolew, W.I. [V.I. Sobolev]:Elemente der Funktionalanalysis, H. Deutsch, Frankfurt a.M., 1979 (translated from the Russian).
Kolmogorov, A.N. and Fomin, S.V.:Elements of the theory offunctions and functional analysis, 1–2, Graylock, 1957–1961 (translated from the Russian).
Berger, M.S.:Nonlinearity and functional analysis, Acad. Press, 1977.
Gâteaux, R.: ‘Sur les fonctionnelles continues et les fonction- nelles analytiques’,C.R. Acad Sci. Paris Sér. I Math.157 (1913), 325–327.
Gâteaux, R.: ‘Fonctions d’une infinites des variables ind6pendantes’,Bull. Soc. Math. France 47 (1919), 70–96.
Lévy, P.:Legons d’lanalyse fonctionnelle, Gauthier-Villars, 1922.
Lévy, P.:Problèmes concrets d’analyse fonctionelle, Gauthier-Villars, 1951.
Berger, M.S.:Nonlinearity and functional analysis, Acad. Press, 1977.
Bogolyubov, N.N. and Shirkov, D.V.:Introduction to the theory of quantized fields, Interscience, 1959 (translated from the Russian).
Moriyasu, K.:An elementary primer for gauge theory, World Scientific, 1983.
Raifertaigh, L.:Group structure of gauge theories, Cambridge Univ. Press, 1986.
Mayer, M.E.: ‘Geometric aspects of gauge theory’, in L.P. Horowitz and Y. Ne’eman (eds.):Proc. Vll-Colloq. Group Theoretical Methods in Physics, Israel Physical Society amp; A. Hilger, 1980, pp. 80–99.
Blaine Lawson, Jr., M.:The theory of gauge fields in four dimensions, Amer. Math. Soc., 1985.
Atiyah, M.F.:Geometry of Yang-Mills fields, Accad. Naz. dei Lincei, 1979.
Gauss, C.F.:Werke, Vol. 8, K. Gesellschaft Wissensch. Göttingen, 1900.
Bonnet, O.:J. Ecole Polytechnique 19 (1848), 1–146.
Cohn-Vossen, S.E.:Some problems of differential geometry in the large, Moscow, 1959 (in Russian).
Sharafutdinov, V.A.: ‘Relative Euler class and the Gauss-Bonnet theorem’,Siberian Math. J.14, no. 6 (1973), 930–940. (Sibirsk Mat. Zh.14, no. 6, 1321–1635)
Allendörfer, C.B. and Weil, A.: ‘The Gauss-Bonnet theorem for Riemannian polyhedra’,Trans. Amer. Math. Soc.53 (1943), 101 - 129.
Eells, J.: ‘A generalization of the Gauss —Bonnet theorem’,Trans. Amer. Math. Soc.92 (1959), 142–153.
Pontryagin, L.S.: ‘On a connection between homologies and homotopies’,Izv. Akad. Nauk SSSR Ser. Mat.13 (1949), 193–200 (in Russian).
Spivak, M.:A comprehensive introduction to differential geometry, 5, Publish or Perish, 1975.
Knopp, K.:Theorie und Anwendung der unendlichen Reihen, Springer, 1964.
Zhelobenko, D.P.:Compact Lie groups and their representations, Amer. Math. Soc., 1973 (translated from the Russian).
Berezin, I.S. and Zhidkov, N.P.:Computing methods, 1, Pergamon, 1973 (translated from the Russian).
Bakhvalov, N.S.:Numerical methods: analysis, algebra, ordinary differential equations, Mir, 1977 (translated from the Russian).
Davis, P.J.:Interpolation and approximation, Dover, reprint, 1975.
Hildebrand, F.B.:Introduction to numerical analysis, McGraw-Hill, 1974.
Steffensen, J.F.:Interpolation, Chelsea, reprint, 1950.
Gauss, C.F.: ‘Theoria motus corporum coellestium’, inWerke, Vol. 7, 1809. English translation: C.H. Davis (ed.), Dover, 1963.
Laplace, P.S.:Théorie analytique des probabilités, Paris, 1812.
Todhunter, I.:A history of the mathematical theory of probability, Chelsea, reprint, 1949.
Gauss, C.F.: ‘Theoria motus corporum coelestium’, inWerke, Vol. 7, K. Gesellschaft Wissenschaft. Göttingen, 1809. English translation: C.H. Davis(ed.), Dover, 1963.
Poincars, H.:Calcul des probabilités, Gauthier-Villars, 1912.
Manin, Yu.: ‘Algebraic curves over fields with differentiation’,Transl. Amer. Math. Soc.37 (1964), 59–78. (Izv. Akad. Nauk. SSSR Ser. Mat.22 (1958), 737–756 )
Katz, N.M.: ‘On the differential equations satisfied by period matrices’,Publ. Math. IHES 35 (1968), 71–106.
Grothendieck, A.: ‘On the de Rham cohomology of alge-braic varieties’,Publ. Math. IHES 29 (1966), 351–359.
Katz, N.M. and Oda, T.: ‘On the differentiation of de Rham cohomology classes with respect to parameters’,J. Math. Kyoto Univ.8 (1968), 199–213.
Nilsson, N.: ‘Some growth and ramification properties of certain integrals on algebraic manifolds’,Arkiv för Mat,5 (1963–1965), 527–540.
Deligne, P.:Equations différentiates à points singuliers réguliers, Lecture notes in math., 163, Springer, 1970.
Katz, N.M.: ‘The regularity theorem in algebraic geometry’, inActes Congres International Mathematiciens Nice,1970, Vol. 1, Gauthier-Villars, 1971, pp. 437–443.
Griffiths, P.A.: ‘Periods of integrals on algebraic manifolds, I, II’,Amer. J. Math.90 (1968), 568–626; 805–865.
Grothendieck, A.: Letter to J.-P. Serre, 5. 10. 1964.
Brieskorn, E.: ‘Die Monodromie von isolierten Singularitaten von Hyperflächen’,Manuscr. Math.2 (1970), 103–161.
Katz, N.M.: ‘Nilpotent connections and the monodromy theorem. Applications of a result of Turrittin’,PubL Math. IHES 39 (1971), 175–232.
Landman, A.:On the Picard-Lefschetz formula for algebraic manifolds acquiring general singularities, Berkeley, 1967. Thesis.
Clemens, C.H.: ‘Picard-Lefschetz theorem for families of nonsingular algebraic varieties acquiring ordinary singularities’,Trans. Amer. Math. Soc.136 (1969), 93–108.
Lê.D.T.: ‘The geometry of the monodromy theorem’, in K.G. Ramanathan (ed.):C.P. Ramanujam, a tribute, Tata IFR Studies in Math., Vol. 8, Springer, 1978.
Deligne, P.: ‘Theoreme de Lefschetz et criteres de degenerescence de suites spectrales’,Publ. Math. IHES 35 (1968), 107–126.
Schmid, W.: ‘Variation of Hodge structure: the singularities of the period mapping’,Invent. Math.22 (1973), 211–319.
Greuel, G.-M.: ‘Der Gauss-Manin Zusammenhang iso-lierter Singularitaten von vollstandigen Durchschnitten’,Math. Ann.214 (1975), 235–266.
Deligne, P.: ‘Le formalisme des cycles evanescents’, in A. Grothendieck, R Deligne and N.M. Katz (eds.):Groupes de monodromie en geometrie algebrique. SGA VII2 1967/69. Exp. XIII, Lecture notes in math., Vol. 340, Springer, 1973.
Pham, F.:Singularités des systemes differentiels de Gauss-Manin, Birkhauser, 1979.
Scherk, J. and Steenbrink, J.H.M.: ‘On the mixed Hodge structure on the cohomology of the Milnor fibre’,Math. Ann.271 (1985), 641–665.
Varchenko, A.N.: ‘Asymptotic Hodge structure in the vanishing cohomology’,Math USSR Izv.18 (1982), 469–512. (Izv. Akad. Nauk SSSR 45, no. 3 (1981), 540–591; 688 )
Saito, M.: ‘Gauss-Manin system and mixed Hodge structure’,Proc. Japan Acad. Ser A 58 (1982), 29–32.
Gauss, C.F.: ‘Beiträge zur Theorie der algebraischen Gleichungen’, inWerke, Vol. 3, K. Gesellschaft Wissenschaft. Göttingen, Göttingen, 1876, pp. 71–102.
Kurosh, A.G.:Higher algebra, Mir, 1972 (translated from the Russian).
Faddeev, D.K. and Faddeeva, V.N.:Computational methods of linear algebra, Freeman, 1963 (translated from the Russian).
Chernikov, S.N.:Lineare Ungleichungen, Deutsch. Verlag Wissenschaft., 1971 (translated from the Russian).
Golub, G.H. and Loan, C.F. Van:Matrix computations, North Oxford Acad., 1983.
Wilkinson, J.H.:The algebraic eigenvalue problem, Clarendon Press, 1965.
Strang, G.:Linear algebra and its application, Acad. Press, 1976.
Dongarra, H., Bunch, J.R., Moler, C.B. and Stewart, G.W.:LINPACK users guide, SIAM, 1978.
Wilkinson, J.H. and Reinsch, C.:Handbook for automatic computation, 2. Linear algebra, Springer, 1971.
Bussinger, P.A.: ‘Monotoring the numerical stability of Gaussian elimination’,Numer. Math 16 (1971), 360–361.
Gauss, C.F.:Disquisitiones Arithmeticae, Yale Univ. Press, 1966 (translated from the Latin).
Hardy, G.H. and Wright, E.M.:An introduction to the theory of numbers, Clarendon Press, 1960, Chapt. XV.
Gauss, C.F.: ‘Ueber ein allgemeines Grundgesetz der Mechanik’,J. Reine Angew. Math.4 (1829), 232–235.
Bolotov, E.A.: ‘On Gauss’ principle’,Izv. Fiz.-Mat. Obshch. Kazan Univ. (2) 21, no. 3 (1916), 99–152 (in Russian).
Chetaev, N.G.: ‘On Gauss’ principle’,Izv. Fiz.-Mat. Obshch. Kazan Univ. (3) 6 (1932–1933), 68–71 (in Russian).
Rumyantsev, V.V.: ‘On some variational principles in mechanics of continuous media’,J. Appl. Math. Mech.37 (1973), 917–926. (Priklad. Mat. Mekh.37, no. 6 (1973), 963–973 )
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Whittaker, E.T.:Analytical dynamics of particles and rigid bodies, Dover, reprint, 1944.
Lindsay, R.B. and Margenau, H.:Foundations of physics, Dover, reprint, 1957.
Gauss, C.F.: ‘Methodus nova integralium valores per approximationem inveniendi’, inWerke, Vol. 3, K. Gesellschaft Wissenschaft. Göttingen, 1886, pp. 163–196.
Krylov, N.M.:Approximate calculation of integrals, Macmillan, 1962 (translated from the Russian).
Krylov, V.I. and Shul’gina, L.T.:Handbook on numerical integration, Moscow, 1966 (in Russian).
Bakhvalov, N.S.:Numerical methods: analysis, algebra, ordinary differential equations, Mir, 1977 (translated from the Russian).
Stroud, A.H. and Secrest, D.:Gaussian quadrature formulas, Prentice-Hall, 1966.
A standard program for the computation of single integrals of quadratures of Gauss’ type, Moscow, 1967 (in Russian).
Hilderbrand, F.B.:Introduction to numerical analysis, McGraw-Hill, 1974.
Abramowitz, M. and Stegun, I.A.:Handbook of mathematical functions, Appl. Math. Series, 25, Nat. Bur. Stand. amp; Dover, 1970.
Christoffel, E.B.: ‘Ueber die Gausssche Quadratur und eine Verallgemeinerung derselben’,J. Reine Angew. Math.55 (1858), 81–82.
Davis, P.J. and Rabinowitz, P.:Methods of numerical integration, Acad. Press, 1984.
Piessens, R., et al.:Quadpack, Springer, 1983.
Gauss, C.F.:Disquisitiones Arithmeticae, Yale Univ. Press, 1966 (translated from the Latin).
Winogradow, I.M. [I.M. Vinogradov]:Elemente der Zahlentheorie, Oldenburg, 1956 (translated from the Russian).
Hasse, H.:Vorlesungen über Zahlentheorie, Springer, 1950.
Kurosh, A.G.:Lectures on general algebra, Chelsea, 1963 (translated from the Russian).
Gauss, C.F.:Disquisitiones Arithmeticae, Yale Univ. Press, 1966 (translated from the Latin).
Vinogradov, I.M.:The method of trigonometical sums in the theory of numbers, Interscience, 1954 (translated from the Russian).
Davenport, H.:Multiplicative number theory, Springer, 1980.
Prachar, K.:Primzahlverteilung, Springer, 1957.
Hasse, H.:Vorlesungen über Zahlentheorie, Springer, 1950.
Gauss, C.F.:Allgemeine Flächentheorie, W. Engelmann, Leipzig, 1900 (translated from the Latin).
Blaschke, W.:Einführung in die Differentialgeometrie, Springer, 1950.
Gromoll, D., Klingenberg, W. and Meyer, W.:Riemannsche Geometrie im Grossen, Springer, 1968.
Eisenhart, L.P.:Riemannian geometry, Princeton Univ. Press, 1949.
Sternberg, S.:Lectures on differential geometry, Prentice-Hall, 1964.
Aleksandrov, A.D.:Die innere Geometrie der konvexen Flächen, Akademie-Verlag, 1955 (translated from the Russian).
Pogorelov, A.V.:Extrinsic geometry of convex surfaces, Amer. Math. Soc., 1973 (translated from the Russian).
Berger, M. and Gostiaux, B.:Differential geometry, Springer, 1988 (translated from the French).
Dombrowski, P.: ‘150 years after Gauss’,Astérisque 62 (1979).
Do Carmo, M.:Differential geometry of curves and surfaces, Prentice Hall, 1976.
Kobayashi, S. and Nomizu, K.:Foundations of differential geometry, 2, Interscience, 1969.
Spivak, M.:Differential geometry, 1–5, Publish or Perish, 1979.
Hille, E. and Phillips, R.:Functional analysis and semi-groups, Amer. Math. Soc., 1957.
Ditkin, V.A. and Prudnikov, A.P.: ‘Integral transforms’,Itogi Nauk. Ser. Mat. Mat. Anal. (1966), 7–82 (in Russian).
Sneddon, I.N.:The use of integral transforms, McGraw-Hill, 1972.
Gauss, C.F.: ‘Allgemeine Lehrsätze in Beziehung auf die IM verkehrten Verhältnisse des Quadrats der Entfernung wirken- den Anziehung- und Abstössungs-Kräfte’, inWerke, Vol. 5, K. Gesellschaft Wissenschaft. Gottingen, 1877, pp. 195–242.
Landkof, N.S. [N.S. Landkov]:Foundations of modern potential theory, Springer, 1972 (translated from the Russian).
Brelot, E.:Eléments de la théorie classique du potentiel, Sorbonne Univ. Paris, 1959.
Doob, J.L.:Classical potential theory and its probabilistic counterpart, Springer, 1984.
Wozencraft, J. and Jacobs, I.:Theoretical foundations of communication techniques, Moscow, 1969 (in Russian; translated from the English).
Gauss, C.F.:Allgemeine Flächentheorie, W. Engelmann, 1900 (translated from the Latin).
Blaschke, W. and Reichardt, H.:Einführung in die Differentialgeometrie, Springer, 1960.
Doob, J.L.:Stochastic processes, Chapman and Hall, 1953.
Ibragimov, I.A. and Rozanov, Yu. A.:Gaussian random processes, Springer, 1978 (translated from the Russian).
Cramér, H. and Leadbetter, M.R.:Stationary and related stochastic processes, Wiley, 1967.
Ito, K.: ‘Multiple Wiener integral’,J. Math. Soc. Japan 3, no. 1 (1951), 157–169.
Ito, K.: ‘Complex multiple Wiener integral’,Japan J. Math.22 (1952), 63–86.
Neveu, J.:Processus aléatoires Gaussiens, Presses Univ. Montreal, 1968.
Fernique, X.: ‘Fonctions aléatores gaussiennes, les résultats de M. Talagrand’,Astérisque 145–146 (1987), 177–186. Exp. 660, S6m. Bourbaki 1985/86.
Ditkin, V.A. and Prudnikov, A.P.: ‘Operational calculus’,Progress in Math.1 (1968), 1–75. (Itogi Nauk. Ser. Mat. Anal.1966 (1967), 7–82 )
Butzer, P.L., Stens, R.L. and Wehrens, M.: ‘The continuous Legendre transform, its inverse transform, and applications,’Internat. J. Math. Sci.3 (1980), 47–67.
Koornwinder, T.H. and Walter, G.G.: ‘The finite continuous Jacobi transform and its inverse’,J. Approx. Theory (To appear).
Gel’fand, I.M.: ‘Normierte Ringe’,Mat. Sb.9 (51), no. 1 (1941) 3–24.
Yosida, K.:Functional analysis, Springer, 1980.
Rudin, W.:Functional analysis, McGraw-Hill, 1979.
Gellerstedt, S.: ‘Quelques problemes mixtes pour l’equation ymzxx +zyy =0’Ark. Mat. Astr. Fysik 26A, no. 3 (1937), 1–32.
Tricomi, F.G.:Integral equations, Interscience, 1957.
Smirnov, M.M.:Equations of mixed type, Amer. Math. Soc., 1978 (translated from the Russian).
Bers, L.:Mathematical aspects of subsonic and transonic gas dynamics, Wiley, 1958.
Shmidt, O. Yu.:Abstract theory of groups, Freeman, 1966 (translated from the Russian).
Waerden, B.L. Van Der:Algebra, 1–2, Springer, 1967–1971 (translated from the German).
Kurosh, A.G.:Lectures on general algebra, Chelsea, 1963 (translated from the Russian).
Kurosh, A.G.:General algebra. Lectures for the academic year 1969/70, Moscow, 1974 (in Russian).
Mal’tsev, A.I.:Algebraic systems, Springer, 1973 (translated from the Russian).
Suzuki, M.:Structure of a group and the structure of its lattice of subgroups, Springer, 1956.
Burnside, W.:Theory of groups of finite order, Cambridge Univ. Press, 1897.
Schoenflies, A.:Kristallsysteme und Kristallstruktur, Teubner, 1891.
Artin, E.:Geometric algebra, Interscience, 1957.
Dieudonné, J.A.:La géométrie des groups classiques, Springer, 1955.
Bass, H.:Algebraic K-theory, Benjamin, 1968.
Mumford, D.:Geometric invariant theory, Springer, 1965.
Lang, S.:Introduction to differentiable manifolds, Interscience, 1967, App. III.
Arnol’d, V.I.:Chapitres supplementaires de la théorie des équations différentiates ordinaires, Mir, 1980 (translated from the Russian).
Eells, J. and McAlpin, J.: ‘An approximate Morse—Sard theorem’,J. Math. Mech.17, no. 11 (1968), 1055–1064.
Quinn, F.: ‘Transversal approximation on Banach manifolds’, inGlobal analysis, Proc. Symp. Pure Math., Vol. 15, Amer. Math. Soc., 1970, pp. 213–222.
Gutierrez, C.: ‘Structural stability of flows on the torus with a cross-cap’,Trans. Amer. Math. Soc.241 (1978), 311–320.
Gutierrez, C.: ‘Smooth nonorientable nontrivial recurrence on two-manifolds’,J. Differential Equations 29, no. 3 (1978), 388–395.
Kurland, H. and Robbin, J.: ‘Infinite codimension and transversality’, inDynamical systems, Warwick 1974, Lecture notes in math., Vol. 468, Springer, 1975, pp. 135–150.
Takens, F.: ‘Tolerance stability’, inDynamical systems, Warwick 1974, Lecture notes in math., Vol. 468, Springer, 1975, pp. 293–304.
Dobrynskií, V.A. and Sharkovskií, A.N.: ‘Typicalness of dynamical systems almost all paths of which are stable under permanently acting perturbations’,Soviet Math. Dokl.14, no. 4 (1973), 997–1000. (Dokl. Acad. Nauk SSSR 211, no. 2 (1973), 273–276 )
Arnol’d, V.I.: ‘Small denominators, I. Mapping the circle onto itself’,Izv. Akad. Nauk SSSR Ser. Mat.25, no. 1 (1961), 21–86 (in Russian).
Arnol’d, V.I.: ‘Correction to ‘Small denominators, I. Mapping the circle onto itself’,Izv. Akad Nauk SSSR Ser. Mat.28, no. 2 (1964), 479–480 (in Russian).
Wall, C.: ‘Geometric properties of generic differentiable manifolds’, inGeometry and topology, Lecture notes in math., Vol. 597, Springer, 1977, pp. 707–774.
Klingenberg, W.:Lectures on closed geodesies, Springer, 1978.
Arnol’d, V.I., Varchenko, A.N. and Gusein-Zade, S.M. [S.M. Khuseín-Zade]:Singularities of differentiable maps, 1, Birkhauser, 1985 (translated from the Russian).
Arnol’d, V.I., Afraimovich, V.S., Ilyashenko, Yu.S. and Shil’nikov, L.P.:Dynamical systems, 5, Springer, forthcoming (translated from the Russian).
Thom, R.: ‘Un lemma sur les applications differentiate’,Bol. Soc. Math. Mexico 1, no. 2 (1956), 59–71.
Boardman, J.M.: ‘Singularities of differentiate maps’,Publ. Math. IHES 33 (1967), 383–419.
Bröcker, Th. and Lander, L.:Differentiate germs and catastrophes, Cambridge Univ. Press, 1975.
Oxtoby, J.C.:Measure and category, Springer, 1971 (translated from the German).
Novikov, P.S.:Elements of mathematical logic, Oliver amp; Boyd and Addison-Wesley, Edinburgh, 1964 (translated from the Russian).
Mendelson, E.:Introduction to mathematical logic, v. Nostrand, 1964.
Kleene, S.C.:Introduction to metamathematics, North-Holland, 1951.
Rogers, Jr., H.:Theory of recursive functions and effective computability, McGraw-Hill, 1967.
Stepanov, V. V.:A course of differential equations, Moscow, 1959 (in Russian).
Erugin, N.P.:A reader for a general course in differential equations, Minsk, 1979 (in Russian).
Hale, J.K.:Ordinary differential equations, Wiley, 1980.
Ince, E.L.:Ordinary differential equations, Dover, reprint, 1956.
Aleksandrov, P.S.:Theory of functions of a real variable and the theory of topological spaces, Moscow, 1978, pp. 280–358 (in Russian).
Aleksandrov, P.S.: ‘Some results in the theory of topological spaces obtained within the last twenty-five years’,Russian Math. Surveys 15, no$12 (1960), 23–83. (Uspekhi Mat. Nauk 15, no. 2 (1960), 25–95 )
Aleksandrov, P.S.: ‘On some basic directions in general topology’,Russian Math. Surveys 19, no$16 (1964), 1–39. (Uspekhi Mat. Nauk 19, no. 6 (1964), 3–46 )
Aleksandrov, P.S.: ‘Corrections to ‘On some basic directions in general topology’’,Russian Math. Surveys 20, no$11 (1965), 177–178. (Uspekhi Mat. Nauk 20, no. 1 (1965), 253–254 )
Aleksandrov, P.S. and Fedorchuk, V.V.: ‘The main aspects in the development of set-theoretical topology’,Russian Math. Surveys 33, no$13 (1978), 1–53. (Uspekhi Mat. Nauk 33, no. 3 (1978), 3–48 )
Arkhangel’skií, A.V.: ‘Mappings and spaces’,Russian Math. Surveys 21, no$14 (1966), 115–162. (Uspekhi Mat. Nauk 21, no. 4 (1966), 133–184 )
Arkhangel’skií, A.V.: ‘Structure and classification of topological spaces and cardinal invariants’,Russian Math. Surveys 33, no$16 (1978), 29–84. (Uspekhi Mat. Nauk 33, no. 6 (1978), 29–84.
Arkhangel’skií, A.V.: ‘Function spaces in the topology of pointwise convergence, and compact sets’,Russian Math. Surveys 39, no$15 (1984), 9–56. (Uspekhi Mat. Nauk 39, no. 5 (1984), 11–50 )
Arkhangel’skií, A.V.: ‘Classes of topological groups’,Russian Math. Surveys 36, no$13 (1981), 151–174. (Uspekhi Mat. Nauk 36, no. 3 (1981), 127–146 )
Engelking, R.:General topology, PWN amp; North-Holland, 1977.
Kunen, K. and Vaughan, J.E.:Handbook of set-theoretic topology, North-Holland, 1984.
Shafarevich, I.R., et al.: ‘Algebraic surfaces’,Proc. Steklov Inst. Math.75 (1967). (Trudy Mat. Inst. Steklov.75 (1965))
Bogomolov, FA.: ‘Holomorphic tensors and vector bundles on projective varieties’,Math. USSR-Izv.13, no$13 (1979), 499–555. (Izv. Akad. Nauk SSSR Ser. Mat.42 (1978), 1227–1287 )
Beauville, A.: ‘Surfaces alg6briques complexes’,Astérisque 54 (1978).
Bombieri, E.: ‘Canonical models of surfaces of general type’,Publ. Math. IHES 42 (1972), 447–495.
Bombieri, E. and Catanese, F.: The tricanonical map of surfaces with K=2,pg=0’ inC.P. Ramanujam, A tribute, Springer, 1978, pp. 279–290.
Bombieri, E. and Husemoi I.FR, D.: ‘Classification and embed- dings of surfaces’, in R. Hartshorne (ed.):Algebraic Geometry, Proc. Symp. Pure Math., Vol. 29, Amer. Math. Soc., 1974, pp. 329–420.
Horikawa, E.: ‘Algebraic surfaces of general type with small C2, II’,Ann. of Math.104 (1976), 357–387.
Horikawa, E.: ‘Algebraic surfaces of general type with small c2, II’,Invent. Math.37 (1976), 121–155.
Horikawa, E.: ‘Algebraic surfaces of general type with small c2, II’,Invent. Math.47 (1978), 209–248.
Horikawa, E.: ‘Algebraic surfaces of general type with small c2, IV’,Invent. Math.50 (1978–1979), 103–128.
Kodaira, K.: ‘Pluricanonical systems on algebraic surfaces of general type’,J. Math. Soc. Japan 20 (1968), 170–192.
Miyaoka, Y.: ‘On the Chern numbers of surfaces of general type’,Invent. Math.42 (1977), 225–237.
Barth, W., Peters, C. and Ven, A. Van DE:Compact complex surfaces, Springer, 1984.
Ekedahl, T.: ‘Canonical models of surfaces of general type in positive characteristic’,Publ. Math. IHES 67 (1988), 97–144.
Kleene, S.C.:Mathematical logic, Wiley, 1967.
Levitan, B.M.:Almost-periodic Junctions, Moscow, 1953 (in Russian).
Besicovitch, A.S.:Almost periodic functions, Cambridge Univ. Press, 1932.
Amerio, L. and Prouse, G.:Almost-periodic functions and functional equations, v. Nostrand Reinhold, 1971.
Bochner, S.: ‘Abstrakte fastperiodische Funktionen’,Acta Math.61 (1933), 149–184.
Marchenko, V.A.: ‘Some questions in the theory of one- dimensional linear second-order differential operators’,Trudy Moskov. Mat Obshch.2 (1953), 3–83 (in Russian).
Levin, B.Ya.: ‘On the almost-periodic functions of Levitan’,Ukrain. Mat. Zh 1 (1949), 49–101 (in Russian).
Besicovitch, A.S. and Bohr, H.: ‘Almost periodicity and general trigonometric series’,Acta Math.57 (1931), 203–292.
Levitan, B.M. and Zhikov, V.V.:Almost-periodic functions and differential equations, Cambridge Univ. Press, 1982 (translated from the Russian).
Fréchet, M.:4Les fonctions asymptotiquement presque- pamp;iodiques continues’,C.R Acad Sci. Paris 213 (1941), 520–522.
Fréchet, M.: ‘Les transformations asymptotiquement presque pfriodiques discontinues et le lemme ergodique I’,Proc. Roy. Soc. Edinburgh Sect. A 63 (1950), 61–68.
Burckel, R.B.:Weakly almost-periodic functions on semigroups, Gordon amp; Breach, 1970.
Leeuw, K.S. De and Glicksberg, I.: ‘Almost periodic functions on semigroups’,Acta Math.105 (1961), 99–140.
Eberlein, W.F.: ‘Abstract ergodic theorems and weak almost periodic functions’,Trans. Amer. Math. Soc.67 (1949), 217–240.
Landstadt, M.B.: ‘On the Bohr compactification of a transformation group’,Math. Z.127 (1972), 167–178.
Levitan, B.M.: The application of generalized displacement operators to linear differential equations of the second order’,Transl. Amer. Math. Soc. (1) 10 (1950), 408–451. (Uspekhi Math. Nauk 4, no. 1 (29) (1949), 3–112 )
Milnes, P.: ‘On vector-valued weakly almost periodic functions’,J. London Math. Soc. (2) 22 (1980), 467–472.
Reich, A.: ‘Präkompakte Gruppen und Fastperiodicität’,Math. Z.116 (1970), 216–234.
Vekua, I.N.:Generalized analytic functions, Pergamon, 1962 (translated from the Russian).
Bers, L.: ‘An outline of the theory of pseudo-analytic functions’,Bull. Amer. Math. Soc.62 (1956), 291–331.
Bers, L.:Theory of pseudo-analytic functions, New York Univ., 1953.
Rodin, Yu. L.:Generalized analytic functions on Riemann surfaces, Springer, 1987.
Rodin, Yu. L.:The Riemann boundary problem on Riemann surfaces, Reidel, 1988.
Dold, A.: ‘Relations between ordinary and extraordinary homology’, inColloq. Algebraic Topology, August 1–10, 1962, Aarhus Univ., 1962, pp. 2–9.
Eilenberg, S. and Steenrod, N.E.:Foundations of algebraic topology, Princeton Univ. Press, 1952.
Conner, P.E. and Floyd, E.E.:Differentiable periodic maps, Springer, 1964.
Whitehead, G.W.:Recent advances in homotopy theory, Amer. Math. Soc., 1970.
Switzer, R.:Algebraic topology—homotopy and homology, Springer, 1975.
Novikov, S.P.: ‘The method of algebraic topology from the viewpoint of cobordism theories’,Math. USSR-Izv.1 (1967), 827–913. (Izv. Akad. Nauk SSSR Ser. Mat.31, no. 4 (1967), 855–951 )
Atiyah, M.F.: ‘Thom complexes’,Proc. London Math. Soc.11 (1961), 291–310.
Adams, J.F.:Stable homotopy and generalised homology, Univ. of Chicago, 1974.
Dyer, E. and Kahn, D.: ‘Some spectral sequences associated with fixations’,Trans. Amer. Math. Soc.145 (1969), 397–437.
Araki, S. and Yosimura, Z.: ‘A spectral sequence associated with a cohomology theory of infinite CW-complexes’,Osaka J. Math.9, no. 3 (1972), 351–365.
Dyer, E.:Cohomology theories, Benjamin, 1969.
Sobolev, S.L.: ‘Le problème de Cauchy dans Pespace des fonctionnelles’,Dokl Akad. Nauk SSSR 3 (1935), 291–294.
Sobolev, S.L.: ‘Méthode nouvelle à résoudre le problème de Cauchy pour les equations lineaires hyperboliques normales’,Mat. Sb.1 (1936), 39 - 72.
Levi, B.: ‘Sul principio di Dirichlet’,Rend. Circ. Mat. Palermo 22 (1906), 293 - 359.
Nikol’skií, S.M.:Approximation of functions of several variables and imbedding theorems, Springer, 1975 (translated from the Russian).
Agmon, S.:Lectures on elliptic boundary value problems, v. Nostrand, 1965.
Delsarte, J.: ‘Sur une extension de la formule de Taylor’,J. Math. Pures Appl.17 (1938), 213–231.
Delsarte, J.: ‘Une extension nouvelle de la théorie des fonctions presque-périodiques de Bohr’,Acta Math.69 (1938), 259–317.
Delsarte, J.:Colloque Internat. CNRS, 1956, pp. 29–45.
Levitan, B.M.: ‘The application of generalized displacement operators to linear differential equations of the second order’,Transl. Amer. Math. Soc. Ser.110 (1962), 408–541. (Uspekhi Mat. Nauk 4, no. 1 (1949), 3–112)
Levitan, B.M.:The theory of generalized displacement operators, Moscow, 1973 (in Russian).
Levitan, B.M.: ‘Normed rings generated by the generalized shift operator’,Dokl. Akad. Nauk SSSR 47 (1945), 3–6 (in Russian).
Levitan, B.M.: ‘A theorem on the representation of positive- definite functions for the generalized shift operator’,Dokl. Akad. Nauk SSSR 47 (1945), 163–165 (in Russian).
Levitan, B.M.: ‘Plancherel’s theorem for the generalized shift operator’,Dokl. Akad. Nauk SSSR 47 (1945), 323–326 (in Russian).
Levitan, B.M.: ‘A duality law for the generalized shift operator’,Dokl. Akad. Nauk SSSR 47 (1945), 401–403 (in Russian).
Levitan, B.M.: ‘Converse Lie theorems for general generalized shift operators’,Dokl. Akad. Nauk SSSR 123 (1958), 243–245 (in Russian).
Berezanskii, Yu.M. and Krein, S.G.: ‘Hypercomplex systems with continuous basis’,Transl. Amer. Math. Soc. Ser.116 (1960), 358–364. (Uspekhi Mat. Nauk 12, no. 1 (1957), 147–152 )
Krasichkov, I.F.: ‘Closed ideals in locally convex algebras of entire functions’,Math. USSR-Izv.1, no$11 (1967), 35–56. (Izv. Akad. Nauk SSSR Ser. Mat.31, no. 1 (1967), 37–60 )
Krasichkov, I.F.: ‘Closed ideals in locally convex algebras of entire functions II’,Math. USSR-Izv.2, no$15 (1968), 979–986. (Izv. Akad. Nauk SSSR Ser. Mat.32, no. 5 (1968), 1024–1032 )
Grabovskaya, R.Ya. and Krein, S.G.: ‘Second order differential equations with operators generating a Lie algebra representation’,Math. Nachr.75 (1976), 9–29.
Grabovskaya, R.Ya., Kononenko, V.I. and Osipov, V.B.: ‘On a family of generalized shift operators’,Math. USSR-Izv.11, no$14 (1977), 865–888. (Izv. Akad. Nauk SSSR Ser. Mat.41, no. 4 (1977), 912–936 )
Maslov, V.P.:Teoret. Mat. Fiz.33 (1977), 185–209.
Rashevskií, P.K.: ‘Description of the closed invariant sub- spaces of certain function spaces’,Proc. Moscow Math. Soc.38, no$12 (1980), 137–182. (Trudy Moskov. Mat. Obshch.38 (1979), 139–185 )
Gurevich, D.I.: ‘Generalized displacement operators with a right infinitesimal Sturm—Liouville operator’,Math. Notes 25, no$13, 208–215. (Mat. Zametki 25, no. 3 (1979), 393–408 )
Dunkl, C.F.: ‘The measure algebra of a locally compact hypergroup’,Trans. Amer. Math. Soc.179 (1973), 331–348.
Jewett, R.I.: ‘Spaces with an abstract convolution of measures’,Adv. in Math.18, no. 1 (1975), 1–101.
Spector, R.: ‘Aper9u de la théorie des hypergroups’, inAnal. Harmonique des Groupes de Lie. Sem Nancy-Strasbourg, Lecture notes in math., Vol. 497, Springer, 1975, pp. 643–673.
Spector, R.: ‘Mesures invariantes sur les hypergroupes’,Trans. Amer. Math. Soc.239 (1978), 147–165.
Ross, K.A.: ‘Hypergroups and centers of measure algebras’,Symposia Math., Vol. 22, Acad. Press, 1977, pp. 189–203.
Litvinov, G.L.: ‘Generalized shift operators and their representations’,Trudy Sem. Vektor. Tenzor. Anal., no. 18 (1978), 345–371 (in Russian).
Chilana, A.K. and Ross, K.A.: ‘Spectral synthesis in hyper-groups’,Pacific J. Math.76 (1978), 313–328.
Chilana, A.K. and Kumar, A.: ‘Spectral synthesis in Segal algebras on hypergroups’,Pacific J. Math.80, no. 1 (1979), 59–76.
Koornwinder, T.: ‘The addition formula for Jacobi polynomials and spherical harmonics. lie algebras: applications and computational methods’,Siam. J. Appl Math.25, no. 2 (1973), 236–236.
Chébli, H.: ‘Opérateurs de translation généralisée et semi-groupes de convolution’, in J. Faraut (ed.):Théorie du potentiel et analyse harmonique, Lecture notes in math., Vol. 404, Springer, 1974, pp. 36–59.
Vainerman, L.I.: ‘Duality of algebras with an involution and generalized shift operators’,J. Soviet Math.42 (1988), 2113–2138. (Itogi Nauk. i Tekhn. Mat. Anal.24 (1986), 165–206 )
Dirac, P. A.M.:The principles of quantum mechanics, Clarendon Press, 1947.
Sobolev, S.L.: ‘Méthode nouvelle à résoudre le problème de Cauchy pour les équations linéaires hyperboliques normales’,Mat. Sb.1 (1936), 39–72.
Schwartz, L.:Théorie des distributions, 1–2, Hermann, 1950–1951.
Bogolyubov, N.N., Logunov, A.A. and Todorov, I.T.:Introduction to axiomatic quantum field theory, Benjamin, 1975 (translated from the Russian).
Gel’fand, I.M. and Shilov, G.E.:Generalized functions, 1–5, Acad. Press, 1966–1968 (translated from the Russian).
Vladimirov, V.S.:Equations of mathematical physics, Mir, 1984 (translated from the Russian).
Vladimirov, V.S.:Generalized functions in mathematical physics, Mir, 1979 (translated from the Russian).
Antosik, P., Mikusinski, J. and Sikorski, R.:Theory of distributions. The sequential approach, Elsevier, 1973.
Yosida, K.:Functional analysis, Springer, 1980.
Jones, D.S.:The theory of generalized functions, Cambridge Univ. Press, 1982.
Rudin, W.:Functional analysis, McGraw-Hill, 1974.
Hörmander, L.V.:The analysis of linear partial differential operators, 1, Springer, 1983.
Schwartz, L.:Théorie des distributions, 1, Hermann, 1950.
Sobolev, S.L.:Applications of functional analysis in mathematical physics, Amer. Math. Soc., 1963 (translated from the Rusian).
Yosida, K.:Functional analysis, Springer, 1980.
Hörmander, L.:The analysis of linear partial differential operators, 1, Springer, 1983.
Schwartz, L.:Théorie des distributions, 1–2, Herman, 1950–1951.
Vladimirov, V.S.:Generalized functions in mathematical physics, Mir, 1979 (translated from the Russian).
Bogolyubov, N.N. and Parasyuk, O.S.: ‘Ueber die Multiplication der Kausalfunktionen in der Quantentheorie der Felder’,Acta Math.97 (1957), 227–266.
Hepp, K.:Théorie de la renormalisation, Springer, 1969.
Colombeau, J.F.:New generalized functions and multiplication of distributions, North-Holland, 1984.
Keller, K.: ‘Analytic regularizations, finite part prescriptions and products of distributions’,Math. Ann.236 (1978), 49–84.
Koornwinder, T.H. and Looder, J.J.: ‘Generalized functions’, in P.L. Butzer, R.L. Stens and B. Sz.-Nagy (eds.):An aniversary volume on approximation theory and functional analysis, Birkhauser, 1984, pp. 151–164.
Hörmander, L.:The analysis of linear partial differential operators, 1, Springer, 1983.
Schwartz, L.:Théorie des distributions, 1–2, Hermann, 1950–1951.
Bourbaki, N.:Elements of mathematics. Topological vector spaces, Addison-Wesley, 1977 (translated from the French).
Dieudonné, J. and Schwartz, L.: ‘La dualité dans les espaces (F) et (LF)’,Ann. Inst. Fourier 1 (1949), 61–101.
Grothendieck, A.: ‘Sur les espaces (F) et (DF)’,Summa Brasil. Math.3, no. 6 (1954), 57–123.
Gel’fand, I.M. and Shilov, G.E.:Generalized functions, 2, Acad. Press, 1968 (translated from the Russian).
Yoshinaga, K.: ‘On a locally convex space introduced by J.S.E. Silva’,J. Sci. Hiroshima Univ. Ser. A 21 (1957), 89–98.
Kawai, T.: ‘On the theory of Fourier hyperfunctions and its applications to partial differential equations with constant coefficients’,J. Fac. Sci. Univ. Tokyo Sect. IA Math. (1970), 467–517.
Vladimirov, V.S.:Generalized functions in mathematical physics, Mir, 1979 (translated from the Russian).
Treves, F.:Topological vector spaces, distributions and kernels, Acad. Press, 1967.
Zemanian, A.H.:Generalized integral transformations, Interscience, 1968.
Bruijn, N.G. De: ‘A theory of generalized functions with applications to Wigner distribution and Weyl correspon-dence’,Niew Archief for Wiskunde (3) 21 (1973), 205–280.
Eijndhoven, S.J.L. Van and Graaf, J. De:Trajectory spaces, generalized functions and unbounded operators, Lecture notes in math., 1162, Springer, 1985.
Antosik, P., Mikusinski, J. and Sikorski, R.:Theory of distributions. The sequential approach, Elsevier, 1973.
Köthe, G.:Topological vector spaces, I, Springer, 1969.
Horvath, J.:Topological vector spaces and distributions, Addison-Wesley, 1966.
Rudin, W.:Functional analysis, McGraw-Hill, 1974.
Kurosh, A.G.:The theory of groups, 1–2, Chelsea, 1955–1956 (translated from the Russian).
Kurosh, A.G. and Chernikov, S.N.: ‘Solvable and nilpotent groups’,Uspekhi Mat. Nauk 2, no. 3 (1947), 18–59 (in Russian).
Robinson, D.J.S.:Finiteness conditions and generalized soluble groups, Springer, 1972.
Robinson, D.J.S.:A course in the theory of groups, Springer, 1980.
Kelley, J.L.:General topology, v. Nostrand, 1955.
Reid, M. and Simon, B.:Methods of modern mathematical physics, 1. Functional analysis, Acad. Press, 1972.
Moore, E.H. and Smith, H.L.: ‘A general theory of limits’,Amer. J. Math.44 (1922), 102–121.
Sobolev, S.L.: ‘Méthode nouvelle à résoudre le problème de Cauchy pour les équations lineaires hyperboliques normales’,Mat. Sb.1, no. 1 (1936), 39–72.
Sobolev, S.L.:Applications of functional analysis in mathematical physics, Amer. Math. Soc., 1963 (translated from the Russian).
Schwartz, L.:Théorie des distributions, 1–2, Hermann, 1950–1951.
Gel’fand, I.M. and Shilov, G.E.:Some problems in differential equations, Moscow, 1958 (in Russian).
Hörmander, L.:The analysis of linear partial differential operators, 1–4, Springer, 1983–1985.
Komatsu, H. (ed.):Hyperfunctions and pseudo-differential equations, Lecture notes in math., 287, Springer, 1973.
Vladimirov, V.S.:Equations of mathematical physics, M. Dekker, 1971 (translated from the Russian).
Vladimirov, V.S.:Generalized functions in mathematical physics, Mir, 1979 (translated from the Russian).
Euler, L.: ‘Institutionum calculi integralis’, inOpera Omnia; series prima; opera math., Vol. 11–13, Teubner, 1913–1914.
Kurosh, A.G.:The theory of groups, 1–2, Chelsea, 1955–1956 (translated from the Russian).
Kurosh, A.G. and Chernikov, S.N.: ‘Solvable and nilpotent groups’,Uspekhi Mat. Nauk 2, no. 3 (1947), 18–59 (in Russian).
Szegö, G.:Orthogonal polynomials, Amer. Math. Soc., 1975.
Suetin, P.K.:Classical orthogonal polynomials, Moscow, 1979 (in Russian).
Feller, W.:An introduction to probability theory and its applications, 1–2, Wiley, 1957–1971.
Hille, E. and Phillips, R.:Functional analysis and semigroups, Amer. Math. Soc., 1957.
Zabreíko, P.P. and Zafievskií, A.V.: ‘On a certain class of semigroups’,Soviet Math. Dokl.10, no$16 (1969), 1523–1526. (Dokl. Akad. Nauk 189, no. 5 (1969), 934–937 )
Zafievskií, A.V.: ‘On semigroups with singularities summable with a power-weight at zero’,Soviet Math. Dokl.11, no$16 (1970), 1408–1411. (Dokl. Akad Nauk 195, no. 1 (1970), 24–27 )
Kreín, S.G.:Linear differential equations in Banach space, Amer. Math. Soc., 1971 (translated from the Russian).
Pazy, A.:Semigroups of linear operators and applications to partial differential equations, Springer, 1983.
Kunen, K.:Set theory, North-Holland, 1980.
Barwise, J. (ed.):Handbook of mathematical logic, North- Holland, 1977.
Griffiths, PH. and Harris, J.:Principles of algebraic geometry, Wiley, 1978, p. 20 ff.
Hartshorne, R.:Algebraic geometry, Springer, 1977, p. 272.
Bernstein, S.: ‘Principe de stationarite et generalisation de la loi de Mendel’,C.R. Acad. Sci. Paris 177 (1923), 581–584.
Etherington, I.M.H.: ‘Genetic algebras’,Proc. R. Soc. Edinburgh 59 (1939), 242–258.
Gonshor, H.: ‘Contributions to genetic algebras’,Proc. Edinburgh Math. Soc. (2) 17 (1971), 289–298.
Holgate, P.: ‘Characterizations of genetic algebras’,J. London Math. Soc. (2) 6 (1972), 169–174.
Schafer, R.D.: ‘Structure of genetic algebras’,Amer. J.Math.71 (1949), 121–135.
Walcher, S.: ‘Bernstein algebras which are Jordan algebras’,Arch. Math.50 (1988), 218–222.
Wörz-Busekros, A.:Algebras in genetics, Lecture notes in biomath., 36, Springer, 1980.
Kleene, S.C.:Introduction to metamathematics, North-Holland, 1951.
Gentzen, G.: ‘Untersuchungen uber das logische Schliessen’,Math. Z.39 (1934), 176–210; 405–431.
Curry, H.B.:Foundations of mathematical logic, McGraw-Hill, 1963.
Prawitz, D.: ‘Ideas and results in proof theory’, in J.E. Fenstad (ed.):Proc. 2-nd Scand. Logic Symp., North-Holland, 1971, pp. 235–308.
Shafarevich, I.R.:Basic algebraic geometry, Springer, 1977 (translated from the Russian).
Hartshorne, R.:Algebraic geometry, Springer, 1978.
Springer, G.:Introduction to Riemann surfaces, Addison- Wesley, 1957.
Griffiths, P.A. and Harris, J.E.:Principles of algebraic geometry, Wiley, 1978.
Shafarevich, I. R., et al.: ‘Algebraic surfaces’,Proc. Steklov Inst. Math.75 (1967). (Trudy mat. Inst. Steklov.75(1965))
Hartshorne, R.:Algebraic geometry, Springer, 1977.
Barth, W., Peters, C. and Ven, A. Van De:Compact complex surfaces, Springer, 1984.
Griffiths, P.A. and Harris, J.E.:Principles of algebraic geometry, Wiley, 1978.
Platonov, V.P.: ‘On the genus problem in arithmetic sub-groups’,Soviet Math. Dokl.12, no$15 (1971), 1503–1507. (Dokl. Akad Nauk SSSR 200, no. 4 (1971), 793–796 )
Platonov, V.P. and Matveev, G.V.: ‘Abelian groups and the finite approximability of linear groups with respect to conjugacy’,Dokl. Akad Nauk Bel SSR 14, no. 9 (1970), 777–779 (in Russian).
Rapinchuk, A.S.: ‘Platonov’s conjecture on the genus in arithmetic groups’,Dokl. Akad Nauk BelSSR 25, no. 2 (1981), 101–104; 187 (in Russian). English summary.
Levin, B. Ya.:Distributions of zeros of entire functions, Amer. Math. Soc., 1964 (translated from the Russian).
Boas, R.P., Jr.:Entire functions, Acad. Press, 1954.
Williams, P.J.:Pipelines and permafrost physical geography and development in the circumpolar north, Longman, 1979.
Fasano, A. and Primicerio, M.: ‘Freezing of porous media: a review of mathematical models’, in V. Boffi and H. Neunzert (eds.):Proc. German-Italian Symp. Applic. Math, in Technology, Teubner, 1984, pp. 288–311.
Bugaro, Yu.D. and Stratilatova, M.B.: ‘Circumferences on a surface’,Proc. Steklov Inst. Math.76 (1965), 109–141. (Trudy Mat. Inst. Steklov.76 (1965), 88–114 )
Blaschke, W.:Vorlesungen tiber Differentiaigeometrie und geometrische Grundlagen von Einsteins Relativitatstheorie. Affine Differentiaigeometrie, 2, Springer, 1923.
Nomizu, K. and Yano, K.: ‘On circles and spheres in Riemannian geometry’,Math. Ann.210 (1974), 163–170.
Berger, M. and Gostiaux, B.:Differential geometry: manifolds, curves and surfaces, Springer, 1988 (translated from the French).
Chen, B.Y.:Geometry of submanifolds, M. Dekker, 1973.
Berger, M. and Gostiaux, B.:Differential geometry: manifolds, curves and surfaces, Springer, 1988 (translated from the French).
Sternberg, S.:Lectures on differential geometry, Prentice- Hall, 1964.
Klingenberg, W.:Riemannian geometry, de Gruyter, 1982 (translated from the German).
Do Carmo, M.:Differential geometry of curves and surfaces, Prentice Hall, 1976.
Berger, M. and Gostiaux, B.:Differential geometry, Springer, 1988 (translated from the French).
O’Neill, B.:Elementary differential geometry, Acad. Press, 1966.
Blaschke, W. and Leichtweiss, K.:Elementare Differential-geometrie, Springer, 1973.
Kobayashi, S. and Nomizu, K.:Foundations of differential geometry, 1, Wiley (Interscience), 1963.
Busemann, H.:The geometry of geodesies, Acad. Press, 1955.
Klingenberg, W.:Riemannian geometry, de Gruyter, 1982 (translated from the German).
Anosov, D.V.: ‘Geodesic flows on compact Riemannian manifolds of negative curvature’,Proc. Steklov Inst.Math.90 (1969). (Trudy Mat. Inst. Steklov.90 (1969))
Arnold, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Klingenberg, W.:Riemannian geometry, Springer, 1982 (translated from the German).
Busemann, H.:The geometry of geodesies, Acad. Press, 1955.
Gromov, M.:Structures métriques pour les variétés Riemanniennes, F. Nathan, 1981.
Fock, V.A. [V.A. Fok]:The theory of space, time and gravitation, Macmillan, 1954 (translated from the Russian).
Synge, J.L.:Relativity: the general theory, North-Holland amp; Interscience, 1960.
Infeld, L. and Hoffmann, B.: ‘Gravitational equations and problems of motion’,Ann. of Math.39 (1938), 65–100.
Infeld, L. and Plebański, J.:Motion and relativity, Pergamon amp; Polish Acad. Sci., 1960.
Rashewski, P.K. [P.K. Rashevskii]:Riemannsche Geometrie und Tensor analyse, Deutsch. Verlag Wissenschaft., 1959 (translated from the Russian).
Lang, S.:Introduction to differentiable manifolds, Interscience, 1967.
Helgason, S.:Differential geometry, Lie groups, and symmetric spaces, Acad. Press, 1978
Gromoll, D., Klingenberg, W. and Meyer, W.:Riemannsche Geometrie im Grossen, Springer, 1968.
Synge, J.L.:Relativity: The general theory, North-Holland amp; Interscience, 1960.
Schnirelmann, L.G. [L.G. Shnirel’man]:Méthode topologiques dans les problemes variationelles, Hermann, 1934 (translated from the Russian).
Milnor, J.:Morse theory, Princeton Univ. Press, 1963.
Aleksandrov, A.D.:Die innere Geometrie der konvexen Flächen, Akademie-Verlag, 1955 (translated from the Russian).
Klingenberg, W.:Lectures on closed geodesies, Springer, 1978 (translated from the German).
Busemann, H.:The geometry of geodesies, Acad. Press, 1955.
Klingenberg, W.:Riemannian geometry, de Gruyter, 1982 (translated from the German).
Berger, M. and Gostlaux, B.:Differential geometry: manifolds, curves and surfaces, Springer, 1988 (translated from the French).
O’Neill, B.:Semi-Riemannian geometry (with applications to relativity), Acad. Press, 1983.
Klingenberg, W.:Riemannian geometry, Springer, 1982 (translated from the German).
Schouten, J.A.:Ricci-calculus, Springer, 1954 (translated from the German).
Pogorelov, A.V.:Hilbert’s fourth problem, Winston amp; Wiley, 1979 (translated from the Russian).
Cohn-Vossen, S.E.: ‘Kürzeste Wege und Totalkrummung auf Flächen’,Compos. Math.2 (1935), 69–133.
Cheeger, J. and Ebin, D.:Comparison theorems in Riemannian geometry, North-Holland, 1975.
Berger, M. and Gostiaux, B.:Differential geometry: manifolds, curves and surfaces, Springer, 1988, p. 395 (translated from the French).
Do Carmo, M.:Differential geometry of curves and surfaces, Prentice Hall, 1976, p. 153; 261.
Spivak, M.:Differential geometry, 3, Publish or Perish, 1979.
Gauss, C.F.:Allgemeine Flächentheorie, W. Engelmann, Leipzig, 1900 (translated from the Latin).
Aleksandrov, A.D. and Zalgaller, V.A.:Intrinsic geometry of surfaces, Amer. Math. Soc., 1967 (translated from the Russian).
Aleksandrov, A.D.: ‘A theorem on triangles in a metric space and some of its applications’,Trudy Mat. Inst. Steklov.38 (1951), 5–23 (in Russian).
Gromoll, D., Klingenberg, W. and Meyer, W.:Riemannsche Geometrie im Grossen, Springer, 1968.
Klingenberg, W.:Riemannian geometry, de Gruyter, 1982 (translated from the German).
Cheeger, J. and Ebin, D.:Comparison theorems in Riemannian geometry, North-Holland, 1975.
Cheeger, J., Moller, W. and Schrader, R.: ‘On the curvature of piecewise flat spaces’,Comm. Math. Physics 92 (1984), 405–454.
Bock, Y., et al.: ‘A demonstration of 1–2 parts in 107 accuracy using GPS’,Bulletin Géodésique 60 (1986), 241–254.
Möhle, A.:Die Verwendung von geographischen Koordinaten in der Theorie allgemeiner Flächen, Friedrich-Wilhelm Univ. Bonn, 1934. Dissertation.
Molodenskii, M.S., Eremeev, V.F. and Yurkina, M.I.:Methods for study of the external gravitational field and figure of the Earth, Israel Program Sci. Transl., 1962 (translated from the Russian).
Moritz, H.:Advanced physical geodesy, H. Wichmann, Karlsruhe, 1980.
Senus, W.J.: ‘Navstar Global Positioning System: status’, inThe future of terrestrial and space methods for positioning. Proc. Internal Assoc. Geodesy and Geophysics. XVIII General Assembly. Hamburg August 15–27, Ohio State Univ., 1983, pp. 181–445.
Vaniček and Krakiwsky, E.J.:Geodesy: the concepts, North-Holland, 1982.
Jeffreys, H.:The Earth, its origin, history and physical constitution, Cambridge Univ. Press, 1970.
Friedlander, F.G.:Sound pulses, Cambridge Univ. Press, 1958.
Babich, V.M. and Buldyrev, V.S.:Asymptotic methods in the diffraction of short waves, Moscow, 1972 (in Russian).
Kline, M. and Kay, I.W.:Electromagnetic theory and geometrical optics, Interscience, 1965.
Felsen, L.B. and Marcuvitz, N.:Radiation and scattering of waves, Prentice-Hall, 1973, Sect. 1. 7.
Munkres, J.R.:Elements of algebraic topology, Addison-Wesley, 1984.
Spanier, E.:Algebraic topology, McGraw-Hill, 1966.
Grünbaum, B.:Convex polytopes, Interscience, 1967.
Grünbaum, B.: ‘Polytopes, graphs and complexes’,Bull. Amer. Math. Soc.76 (1970), 1131–1201.
Adler, A.:Theorie der geometrischen Konstruktionen, Göschen, 1906.
Hilbert, D.:Grundlagen der Geometrie, Springer, 1913.
Enzyklopaedie der Elementarmathematik, Deutsch. Verlag Wissenschaft., 1969 (translated from the Russian).
Bieberbach, L.:Theorie der geometrischen Konstruktionen, Birkhäuser, 1952.
Mehlhorn, K.:Multidimensional searching and computational geometry, Springer, 1984.
Edelsbrunner, H.:Algorithms in combinatorial geometry, Springer, 1987.
Baldassarri, M.:Algebraic varieties, Springer, 1956.
Shafarevich, I.R.:Basic algebraic geometry, Springer, 1977 (translated from the Russian).
Hartshorne, R.:Algebraic geometry, Springer, 1977.
Coxeter, H.S.M.:Introduction to geometry, Wiley, 1961.
Hilbert, D. and Cohn-Vossen, S.:Anschauliche Geometrie, Springer, 1932.
Veblen, O. and Whitehead, G.:The foundations of differential geometry, Cambridge Univ. Press, 1932.
Laptev, G.F.: ‘Differential geometry of imbedded manifolds’,Trudy Moskov. Mat. Obshch.2 (1953), 275–382 (in Russian).
Schouten, J.A.:Ricci-calculus, Springer, 1954 (translated from the German).
Kobayashi, S.:Transformation groups in differential geometry, Springer, 1972.
Kendall, M.G. and Moran, P.A.P.:Geometric probability, Griffin, 1963.
Kendall, D.G. and Harding, E.F.:Stochastic geometry, Wiley, 1974.
Stoyan, D., Kendall, W.S. and Mecke, J.:Stochastic geometry and its applications, Wiley, 1987.
Ambartzumian, R.V. (ed.):Stochastic and integral geometry, Reidel, 1987.
Matheron, G.:Random sets and integral geometry, Wiley, 1975.
Zariski, O. and Samuel, P.:Commutative algebra, 1, Springer, 1975.
Chevalley, C.: ‘Intersection of algebraic and algebroid varieties’,Trans. Amer. Math. Soc.57 (1945), 1–85.
Samuel, P.:Algébre locale, Gauthier-Villars, 1953.
Nagata, M.:Local rings, Interscience, 1962.
Grothendieck, A.: ‘Eléments de géometrie algébrique IV.Etude locale des schemas et des morphismes des schemas’,Publ. Math. IHES, no. 32 (1967).
Rainich, G.Y.: ‘Electrodynamics in general relativity theory’,Trans. Amer. Math. Soc.27 (1925), 106–136.
Wheeler, J.A.:Geometrodynamics, Acad. Press, 1962.
Harrison, B.K., Thorne, K.S., Wakano, M. and Wheeler, J.A.:Gravitational theory and gravitational collapse, Univ. Chicago Press, 1965.
Zel’Dovich, YA.B. and Novikov, I.D.:Relativistic astrophysics, 2. Structure and evolution of the universe, Chicago, 1983 (translated from the Russian).
Wheeler, J A.: ‘Some implications of general relativity for the structure and evolution of the universe’, inXI Conseil de Physique Solvay. Bruxelles, 1958, pp. 97 - 148.
Aleksandrov, A.D.: ‘Geometry’, inLarge Soviet Encyclopedia, Vol. 6.
Aleksandrov, A.D.: ‘A general view of mathematics’, in A.D. Aleksandrov, A.N. Kolmogorov and M.A. Lavrent’ev (eds.):Mathematics, its content, methods, and meaning, Vol. 1, M.I.T., 1969, pp. 1–64 (translated from the Russian).
Delone, B.N.: ‘Analytic geometry’, in A.D. Aleksandrov, A.N. Kolmogorov and M.A. Lavrent’ev (eds.):Mathematics, its content, methods, and meaning, Vol. 1, M.I.T., 1969, pp. 183–260 (translated from the Russian).
Aleksandrov, A.D.: ‘Non-euclidean geometry’, in A.D. Aleksandrov, A.N. Kolmogorov and M.A. Lavrent’ev (eds.):Mathematics, its content, methods, and meaning, Vol. 2, M.I.T., 1969, pp. 97–189 (translated from the Russian).
Waerden, B.L. Van Der:Science awakening, Noordhoff, 1975. Translated from the Dutch.
Wieleitner, H.:Geschichte der Mathematik, de Gruyter, 1923.
Klein, F.:Development of mathematics in the 19th century, Math. Sci. Press, 1979 (translated from the German).
Struik, D.J.:A concise history of mathematics, Bell, 1954. Translated from the Dutch.
Hilbert, D.:Grundlagen der Geometrie, Springer, 1913.
On the foundation of geometry, Moscow, 1956 (in Russian). Collection of translations.
Efimov, N.V.:Höhere Geometrie, Deutsch. Verlag Wissen- schaft., 1960 (translated from the Russian).
Klein, F.:Vorlesungen über höhere Geometrie, Springer, 1926.
Bonola, R.:Non-Euclidean geometry, Dover, reprint, 1955 (translated from the Italian).
Hilbert, D. and Cohn-Vossen, S.:Anschauliche Geometrie, Springer, 1933.
Tölke, J. and Wills, J.M. (eds.):Contributions to geometry, Birkhauser, 1979.
Gruber, P. and Wills, J.M. (eds.):Convexity and its applications, Birkhäuser, 1983.
Davis, C., Gronbaum, B. and Sherk, F.A. (eds.):The geometric vein (Coxeter-Festschrift), Springer, 1980.
Coxeter, H.S.M.:Unvergängliche Geometrie, Birkhäuser, 1963.
Dubrovin, B., Novikov, S. and Fomenko, A.:Modern geometry, Springer, 1984 (translated from the Russian).
Greenberg, M.:Euclidean and non-Euclidean geometries, Freeman, 1974.
Berger, M.:Geometry, 1–2, Springer, 1987 (translated from the French).
Coxeter, H.S.M.:Introduction to geometry, Wiley, 1963.
Boyer, C.B.:History of analytic geometry, Scripta Math., 1956.
Chasles, M.:Apergu historique sur I’origine et le développment des méthodes en géometrie, Gauthier-Villars, 1889.
Coolidge, J.L.:A history of geometrical methods, Oxford Univ. Press, 1947.
Heath, Th. L.:A manual of greek mathematics, Dover, 1963.
Klein, F.:Vorlesungen über höhere Geometrie, Springer, 1926.
Loria, G.:Storia della geometria descrittiva, U. Hoepli, 1921.
Russell, B.:An essay on the foundations of geometry, Dover, reprint, 1956.
Waerden, B.L. Van Der:Geometry and algebra in ancient civilizations, Springer, 1983.
Kline, M.:Mathematical thougt from ancient to modern times, Oxford Univ. Press, 1972.
Cohn-Vossen, S.E.:Some problems of differential geometry in the large, Moscow, 1959 (in Russian).
Aleksandrov, A.D.:Die innere Geometrie der konvexen Flächen, Akademie-Verlag, 1955 (translated from the Russian).
Efimov, N.V.: ‘Geometry in the large’, inMathematics in the USSR during 40years: 1917–1957, Vol. 1, Moscow, 1959 (in Russian).
Pogorelov, A.V.:Extrinsic geometry of convex surfaces, Amer. Math. Soc., 1973 (translated from the Russian).
Gromoll, D., Klingenberg, W. and Meyer, W.:Riemannsche Geometrie im Grossen, Springer, 1968.
Klingenberg, W.:Riemannian geometry, de Gruyter, 1982 (translated from the German).
Cheeger, J. and Ebin, D.:Comparison theorems in Riemannian geometry, North-Holland, 1975.
Yau, S.T.: ‘Problem section’, inSeminar on differential geometry, Ann. of Math. Studies, Vol. 102, Princeton Univ. Press, 1982, pp. 669–706.
Milnor, J.:Morse theory, Princeton Univ. Press, 1963.
Eisenhart, L.P.:Riemannian geometry, Princeton Univ. Press, 1949.
Chen, B.:Geometry of submanifolds, M. Dekker, 1973.
Chern, S.-S. and Lashof, R.K.: ‘On the total curvature of immersed manifolds’,Amer. J. Math.79 (1957), 306–318.
Shefel’, S.Z.: ‘Two classes of k-dimensional surfaces in n- dimensional Euclidean space’,Sib. Math. J.10 (1969), 328–333. (Sibirsk. Mat. Zh.10, no. 2 (1969), 459–466 )
Glazyrin, V.V.: ‘Topological and metric properties of k- saddle surfaces’,Soviet Math. Dokl.18 (1977), 532–534. (Dokl. Akad Nauk SSSR 233, no. 6 (1977), 1028–1030 )
Hartman, P.: ‘On isometric immersions in Euclidean space of manifolds with non-negative sectional curvatures’,Trans. Amer. Math. Soc.115 (1965), 94–109.
Hartman, P.: ‘On the isometric immersions in Euclidean space of manifolds with nonnegative sectional curvatures II’,Trans. Amer. Math. Soc.147 (1970), 529–540.
Gromov, M.L.: ‘Isometric imbeddings and immersions’,Soviet Math. Dokl.11 (1970), 794–797. (Dokl. Akad. Nauk SSSR 192, no. 6 (1970), 1206–1209 )
Chern, S.-S. and Kuiper, N.H.: ‘Some theorems on the isometric imbedding of compact Riemann manifolds in Euclidean space’,Ann. of Math.56, no. 3 (1952), 422–430.
Borovskii, YU.E. and Shefel’, S.Z.: ‘On Chern-Kuiper theorem’,Sib. Math. J.19 (1978), 978. (Sibirsk. Mat. Zh.19, no. 6 (1978), 1386–1387 )
Borisenko, A.A.: ‘Complete l-dimensional surfaces of nonpositive extrinsic curvature in a Riemannian space’,Math. USSR Sb.33 (1977), 485–499. (Mat. Sb.104, no. 4 (1977), 559–576 )
Moore, J.D.: ‘Codimension two submanifolds of positive cur-vature’,Proc. Amer. Math. Soc.70, no. 1 (1978), 72–74.
Gardner, R.B.: ‘New viewpoints in the geometry of submanifolds of RN’,Bull. Amer. Math. Soc.83, no. 1 (1977), 1–35.
Gromov, M.:Partial differential relations, Springer, 1986 (translated from the Russian).
Gromov, M. and Rokhlin, V.: ‘Embeddings and immersions in Riemannian geometry’,Russian Math. Surveys 25, no$15 (1970), 1–57. (Uspekhi Mat Nauk 25, no. 5 (1970), 3–62 )
Minkowski, H.:Geometrie der Zahlen, Chelsea, reprint, 1953.
Minkowski, H.:Diophantische Approximationen, Chelsea, reprint, 1957.
Hancock, H.:Development of the Minkowski geometry of numbers, MacMillan, 1939.
Cassels, J.W.S.:An introduction to the geometry of numbers, Springer, 1959.
Lekkerkerker, C.G. and Gruber, P.M.:Geometry of numbers, North-Holland, 1987. Updated reprint.
Fejes Toth, L.:Lagerungen in der Ebene, auf der Kugel und im Raum, Springer, 1972.
Rogers, C.A.:Packing and covering, Cambridge Univ. Press, 1964.
Keller, O.-H.: ‘Geometrie der Zahlen’, inEnzyklopädie der mathematischen Wissenschaften mit Einschluss ihrer Anwen-dungen, Vol. 12, 1954. Heft 11, Teil III.
Hlawka, E.: ‘Grundbegriffe der Geometrie der Zahlen’,Jahresber. Deutsch. Math.-Verein 57 (1954), 37–55.
Baranovskiĭ, E.P.: ‘Packings, coverings, partitionings and certain other distributions in spaces of constant curvature’,Progress Math.9 (1971), 209–253. (Itogi Nauk. Algebra Topol. Geom.1967 (1969), 189 - 225 )
Koksma, J.F.:Diophantische Approximationen, Springer, 1936.
Macbeath, A.M. and Rogers, C.A.: ‘Siegel’s mean value theorem in the geometry of numbers’,Proc. Cambridge Philos. Soc. (2) 54 (1958), 139–151.
Schmidt, W.: ‘On the Minkowski-Hlawka theorem’,Illinois J. Math.7 (1963), 18–23; 714.
Markov, A.M.: ‘On binary quadratic forms with positive determinant’,Uspekhi Mat. Nauk 3, no. 5 (1948), 7–51 (in Russian).
Rogers, K. and Swinnerton-Dyer, H.P.F.: ‘The geometry of numbers over algebraic number fields’,Trans. Amer. Math. Soc.88 (1958), 227–242.
Gruber, P.M.: ‘Geometry of numbers’, in J.M. Wills and J. Tölke (eds.):Contributions to geometry, Birkhäuser, 1979, pp. 186–225.
Conway, J.H. and Sloane, N.J.A.:Sphere packing, lattices and groups, Springer, 1987.
Erdös, P., Gruber, P.M. and Hammer, J.:Lattice points, Longman, forthcoming.
Ryskov, S.S.:The geometry of positive quadratic forms, Amer. Math. Soc., 1982.
Malyshev, A.B. and Teterina, Yu. G.:Investigations in number theory, 9, Leningrad, 1986 (in Russian).
Thompson, T.M.:From error-correcting codes through sphere packing to simple groups, Math. Assoc. Amer., 1983.
Fejes Toth, G.: ‘New results in the theory of packing and covering’, in P.M. Gruber and J.M. Wills (eds.):Convexity and its applications, Birkhäuser, 1983, pp. 318–359.
Voronot, G.F.:Collected works, 1–3, Kiev, 1952 (in Russian).
Chalk, J.H.H.: ‘Algebraic lattices’, in P.M. Gruber and J.M. Wills (eds.):Convexity and its applications, Birkhäuser, 1983, pp. 97–110.
Minkowski, H.:Gesammelte Abhandlungen, Teubner, 1911.
Fedynskiĭ, V. V.:Geophysical exploration, Moscow, 1964 (in Russian).
Malovichko, A.K.:Methods of analytic continuation of anomaly of an attraction force and their applications to problems of gravity, Moscow, 1956 (in Russian).
Dmitriev, V.I.:Electromagnetic fields in non-homegeneous media, Moscow, 1969 (in Russian).
Questions of the dynamic theory of propagation of seismic waves, 3, Leningrad, 1959 (in Russian).
Tikhonov, A.N.: ‘Regularization of incorrectly posed problems’,Soviet Math. Dokl 4, no$16 (1963), 1624–1627. (Dokl. Akad Nauk SSSR 153, no. 1 (1963), 49–52 )
Lavrentiev, M.M. [M.A. Lavrent’ev]:Some improperly posed problems of mathematical physics, Springer, 1967 (translated from the Russian).
Tikhonov, A.N.: ‘On the stability of inverse problems’,Dokl Akad Nauk SSSR 39, no. 5 (1943), 176–179.
Tikhonov, A.N. and Arsenine, V.I. [V.I. Arsenin]:Solutions of ill-posed problems, Halted Press, 1977 (translated from the Russian).
Tikhonov, A.N. and Goncharskii, A.V. (eds.):Ill-posed problems in the natural sciences, Moscow, 1987 (in Russian).
Morozov, V.A.:Methods for solving incorrectly posed problems, Springer, 1984 (translated from the Russian).
Tarantola, A.:Inverse problem theory. Methods for data fit-ting and model parameter estimation, Elsevier, 1987.
Weglein, A.B.: ‘The inverse scattering concept and its seismic application’, in A.A. Fitch (ed.):Developments in geophysical exploration, Vol. 6, Elsevier, 1985, pp. 111–138.
Aki, K. and Richards, P.G.:Quantitative seismology, I–II, Freeman, 1980.
Achenbach, J.D.:Wave propagation in elastic solids, North-Holland, 1973.
Hyden, J.H.M.T. van der:Propagation of transient elastic waves in stratified anisotropic media, North-Holland, 1987.
Tikhonov, A.N.:Dokl. Akad Nauk SSSR 1, no. 5 (1935), 294–300.
Tikhonov, A.N.:Izv. Akad. Nauk SSSR Otd. Mat. Estestv. Nauk. Ser. Geogr.3 (1937), 461–479.
Tikhonov, A.N.: ‘On boundary conditions containing derivatives of an order higher than the order of the equation’,Mat. Sb.26 (68), no. 1 (1950), 35–56 (in Russian).
Lyubimova, E.A.:Thermics of the Earth and the moon, Moscow, 1968 (in Russian).
Carslaw, H.S. and Jaeger, J.C.:Conduction of heat in solids, Clarendon Press, 1959.
Gunning, R.C. and Rossi, H.:Analytic functions of several complex variables, Prentice-Hall, 1965.
Hervé, M.:Several complex variables: local theory, Oxford Univ. Press, 1967.
Gibbs, J.W.:Elementary principles in statistical mechanics, Dover, 1960.
Huang, K.:Statistical mechanics, Wiley, 1963.
Hill, T.L.:Statistical mechanics, McGraw-Hill, 1956.
Ruelle, D.:Statistical mechanics: rigorous results, Benjamin, 1974.
Tlandau, L.D. and Lifshitz, E.M.:Statistical physics, A course of theoretical physics, 5, Pergamon, 1969 (translated from the Russian)
Wllbraham, H.:Cambridge and Dublin Math. J.3 (1848), 198–201.
Gibbs, J.W.:Nature 59 (1898), 200.
Zygmund, A.:Trigonometrical series, 1–2, Cambridge Univ. Press’, 1988.
Gibbs, J.W.:Nature 59 (1899), 606.
Carslaw, H.S.:Introduction to the theory of Fourier’s series and integrals, Dover, reprint, 1930.
Gibbs, J.W.:Elementary principles in statistical mechanics, Dover, 1960.
Kendall, M.G. and Stuart, A.:The advanced theory of statistics. Distribution theory, Griffin, 1969.
Giraud, G.: ‘Existence de certaines dérivées des functions de Green; consequences pour les problémes du type de Dirichlet’,C.R. Acad. Sci. Paris 202 (1936), 380–382.
Giraud, G.: ‘Généralisation des problémes sur les opérateurs du type elliptiqué’,Bull. Sci. Math.56 (1932), 248–272.
Giraud, G.: ‘Généralisation des problémes sur les opérateurs du type elliptique’,Bull. Sci. Math.56 (1932), 281–312.
Giraud, G.: ‘Généralisation des problémes sur les opérateurs du type elliptique’Bull. Sci. Math.56 (1932), 316–352.
Giraud, G.: ‘Nouvelle méthode pour traité certains problémes relatifs aux équations du type elliptique’,J. Math. Pures. Appl.18 (1939), 111–143.
Miranda, C.:Partial differential equations of elliptic type, Springer, 1970 (translated from the Italian)
Cassels, J.W.S. and Frohlich, A. (eds.):Algebraic number theory, Acad. Press, 1986.
Jenkins, J.A.:Univalent functions and conformal mappings, Springer, 1958.
Jenkins, J.A.: ‘On the global structure of the trajectories of a positive quadratic differential’,Illinois J. Math.4, no. 3 (1960), 405–412.
Helgason, S.:Differential geometry, Lie groups, and symmetric spaces, Acad. Press, 1978.
Loos, O.:Symmetric spaces, 1–2, Benjamin. 1969.
Grothendieck, A.:Elements de géométrie algébrique I, IHES, 1960, Sect. 0.4. 1. 7.
Hazewinkel, M.: ‘A tutorial introduction to differentiable manifolds and calculus on differentiable manifolds’, in W. Schiehlen and W. Wedig (eds.):Analysis and estimation of stochastic mechanical systems, Springer (Wien), 1988, pp. 316–340.
Aleksandrov, A.D. and Zalgaller, V.A.: ‘Two-dimensional manifolds of bounded curvature’,Proc. Steklov Inst. Math.76 (1962). (Trudy Mat. Inst. Steklov.76 (1962))
Pogorelov, A.V.:Die Verbiegung konvexer Flächen, Deutsch. Verlag Wissenschaft., 1957 (translated from the Russian).
Lavrent’ev, M.A.: ‘Sur une classe de representations continues’,Mat. Sb.42, no. 4 (1935), 407–424.
Volkovyskiĭ, L.I.: ‘On the problem of the connectedness type of Riemann surfaces’,Mat. Sb.18, no. 2 (1946), 185–212 (in Russian).
Schaeffer, A.C. and Spencer, D.C.: ‘Variational methods in conformal mapping’,Duke Math. J.14, no. 4 (1947), 949–966.
Schaeffer, A.C. and Spencer, D.C.:Coefficient regions for schlicht functions, Amer. Math. Soc. Coll. Publ., 35, Amer. Math. Soc., 1950.
Goluzin, G.M.:Geometric theory of functions of a complex variable, Amer. Math. Soc., 1969 (translated from the Russian).
Belinskiĭ, P.P.:General properties of quasi-conformal mappings, Novosibirsk, 1974, Chapt. 2, Par. I (in Russian).
Gödel, K.: ‘Die Vollstandigkeit der Axiomen des logischen Funktionalkalkiils’,Monatsh. Math. Physik 37 (1930), 349–360.
Novikov, P.S.:Elements of mathematical logic, Oliver and Boyd amp; Acad. Press, 1964 (translated from the Russian).
Kleene, S.C.:Introduction to metamathematics, North-Holland, 1951.
Godel, K.: ‘The consistency of the axiom of choice and of the generalized coninuum hypothesis’,Proc. Nat. Acad Sci. USA 24 (1938), 556–557.
Godel, K.: ‘Consistency proof for the generalized coninuum hypothesis’,Proc. Nat. Acad Sci. USA 25 (1939), 220–224.
Jech, T.J.:Lectures in set theory: with particular emphasis on the method of forcing, Springer, 1971.
Mostowski, A.:Constructible sets with applications, North- Holland, 1969.
Karp, C.: ‘A proof of the relative consistency of the continuum hypothesis’, in J. Crossley (ed.):Sets, models and recursion theory, North-Holland, 1967, pp. 1–32.
Addison, J.W.: ‘Some consequences of the axiom of constructibility’, Fund Math. 46 (1959), 33–357.
Novikov, P.S.: ‘On the non-contradictability of certain propositions of descriptive set theory’,Trudy Mat. Inst. Steklov.38 (1951), 279–316 (in Russian).
Felgner, U.:Models of ZF-set theory, Springer, 1971.
Devlin, K.J.:Constructibility, Springer, 1984.
Jech, T.:Set theory, Acad. Press, 1978.
Kunen, K.:Set theory. An introduction to independence proofs, North-Holland, 1980.
Godel, K.:The consistency of the axiom of choice and of the generalized continuum hypothesis with the axioms of set theory, Princeton Univ. Press, 1940.
Devlin, K.: ‘Constructiblity’, in J. Barwise (ed.):Handbook of mathematical logic, North-Holland, 1977, pp. 453–490.
Godel, K.: ‘Ueber formal unentscheidbare Sätze der Principia Mathematica und verwandter Systeme I’,Monatsh. Math. Physik 38 (1931), 178–198.
Hilbert, D. and Bernays, P.:Grundlagen der Mathematik, 1–2, Springer, 1968–1970.
Kleene, S.C.:Introduction to metamathematics, North-Holland, 1951.
Godel, K.: ‘Ueber eine bisher noch nicht benützte Erweiterung des finiten Standpunktes’,Dialectica 12 (1958), 280–287.
Bishop, E.: ‘Mathematics as a numerical language’, in A. Kino, J. Mvhill and R.E. Vesley (eds.):Intuitionism and Proof Theory, North-Holland, 1970, pp. 53–71.
Troelsta, A.S.:Metamathematical investigations, Springer, 1973, p. 230ff.
Vinogradov, I.M.:The method of trigonometric sums in the theory of numbers, Interscience, 1954 (translated from the Russian).
Karatsuba, A. A.:Fundamentals of analytic number theory, Moscow, 1975 (in Russian).
Vaughan, R.C.:The Hardy-Littlewood method, Cambridge Univ. Press, 1981.
Halberstam, H. and Richert, H.E.:Sieve methods, Acad. Press, 1974.
Granville, A., Lune, J. van der and Riele, H.J.J. TE: ‘Checking the Goldbach conjecture on a vector computer’, in R. Mollin (ed.):Number Theory and Applications. Proc. First Conf. Canadian Number Theory Assoc., Banff, April 1988, Kluwer, 1989. (Also: Mathematical Centre Report NM R8812 (1988)).
Yuan, Wang (ed.):Goldbach conjecture, World Scientific, 1984.
Vinogradov, I.M.:The method of trigonometric sums in the theory of numbers, Interscience, 1954 (translated from the Russian).
Hua, L.-K.: ‘Abschätzungen von Exponentialsummen und ihre Anwendung in der Zahlentheorie’, inEnzyklopaedie der Mathematische Wissenschaften mit Einschluss ihrer Anwendungen, Vol. 1, 1959. Heft 13, Teil 1
Golubev, V.V.:Univalent analytic functions with perfect sets of singular points, Moscow, 1916 (in Russian). See also: V.V. Golubev, Single—valued analytic functions. Automorphic functions, Moscow, 1961 (in Russian).
Privalov, I.I.:The Cauchy integral, Saratov, 1918 (in Russian).
Priwalow, I.I. [I.I. Privalov]:Randeigenschaften analytischer Funktionen, Deutsch. Verlag Wissenschaft., 1956 (translated from the Russian).
Lint, J.H. van:Introduction to coding theory, Springer, 1982.
Tietäväinen, A.: ‘On the non-existence of perfect codes over finite fields’,SIAM J. Appl. Math.24 (1973), 88–96.
McEliece, R.J., Rodemich, E.R., Rumsey, H. and Welch, L.R.: ‘New upper bounds on the rate of a code via the Delsarte—MacWilliams inequalities’,IEEE Trans. Inform. Theory 23 (1977), 157–166.
Tsfasman, M.A., Vladuts, S.G. and Zink, T.: ‘Modular curves, Shimura curves and Goppa codes, better than Varshamov-Gilbert bound’,Math. Nachr.109 (1982), 21– 28.
Lekkerkerker, C.G. and Gruber, P.M.:Geometry of numbers, North-Holland, 1987.
Hill, R.:A first course in coding theory, Clarendon Press, 1986.
Lint, J.H. Van and Geer, G. van der:Introduction to coding theory and algebraic geometry, Birkhäuser, 1988.
Goppa, V.D.:Geometry and codes, Kluwer, 1988.
Tsfasman, M.A. and Vladuts, S.G.:Algebraic geometric codes, Kluwer, 1989.
Gorenstein, D.: ‘An arithmetic theory of adjoint plane curves’,Trans. Amer. Math. Soc.72 (1952), 414 - 436.
Serre, J.-P.:Groupes algebrique et corps des classes, Hermann, 1959.
Abramov, L.L. and Golod, E.S.: ‘Homology algebra of the Koszul complex of a local Gorenstein ring’,Math. Notes 9, no$11 (1971), 30–32. (Mat. Zametki 9, no. 1 (1971), 53–58 )
Grothendieck, A.: ‘Geometrie formelle et geometrie algdbrique’,Sem. Bourbaki 11 (1958–1959).
Hartshorne, R.:Local cohomology, a seminar given by A. Grothendieck, Springer, 1967.
Hartshorne, R.:Residues and duality, Springer, 1966.
Bass, H.: ‘On the ubiquity of Gorenstein rings’,Math. Z.82 (1963), 8–28.
Tzitzeica, G.: ‘Sur certaines congruences de droites’,J. Math. Pures Appl. (9) 7 (1928), 189–208.
Finikov, S.P.:Projective differential geometry, Moscow-Leningrad, 1937 (in Russian).
Bol, G.:Projektive Differential Geometrie, 2, Vandenhoeck amp; Ruprecht, 1954.
Goursat, E.:Cours d’analyse mathematique, 3, Part 1, Gauthier-Villars, 1923.
Bitsadze, A. V.:Equations of the mixed type, Pergamon, 1964 (translated from the Russian).
Courant, R. and Hilbert, D.:Methods of mathematical physics. Partial differential equations, 2, Interscience, 1965 (translated from the German).
Tricomi, F.G.:Integral equations, Interscience, 1957.
Bourbaki, N.:Algébre commutative, Hermann, 1961, Chapt. 3. Graduations, filtrations et topologies.
Nâstâsescu, C. and Oystaeyen, F. Van:Graded ring theory, North-Holland, 1982.
Cartan, H. and Eilenberg, S.:Homological algebra, Princeton Univ. Press, 1956.
Nâstâsescu, C. and Oystaeyen, F. Van:Graded ring theory, North-Holland, 1982.
Kochin, N.E.:Vector calculus and initials of tensor calculus, Moscow, 1965.
Rashewski, P.K. [P.K. Rashevskiî]:Riemannsche Geometrie und Tensoranalyse, Deutsch. Verlag Wissenschaft., 1959 (translated from the Russian).
Fleming, W.:Functions of several variables, Addison- Wesley, 1965.
Smale, S.: ‘On gradient dynamical systems’,Ann. of Math. (2) 74, no. 1 (1961), 199–206.
Dennis, J.E. and Schnabel, R.B.:Numerical methods for unconstrained optimization and nonlinear equations, Prentice-Hall, 1983.
Fletcher, R.:Practical methods of optimization, Wiley, 1980.
Luenberger, D.G.:Linear and nonlinear programming, Addison-Wesley, 1984.
Gram, J.P.: ‘Ueber die Entwicklung reeller Funktionen in Reihen mittelst der Methode der kleinsten Quadraten’,J. Reine Angew. Math.94 (1883), 41–73.
Charlier, C.V.L.: ‘Frequency curves of type A is heterograde statistics’,Ark. Mat. Astr. Fysik 9, no. 25 (1914), 1–17.
Mitropol’skiĭ, A.K.:Curves of distributions, Leningrad, 1960 (in Russian)
Cramér, H.:Mathematical methods of statistics, Princeton Univ. Press, 1946, Sect. 17. 6.
Gram, J.P.:On Raekkeudviklinger bestemmte ved Hjaelp of de mindste Kvadraters Methode, Copenhagen, 1879.
Andreev, K.A.:Selected work, Kharkov, 1955 (in Russian).
Gantmakher, F.R.:The theory of matrices, Chelsea, reprint, 1977 (translated from the Russian).
Davis, P.J.:Interpolation and approximation, Dover, reprint, 1975.
Schwerdtfeger, H.:Introduction to linear algebra and the theory of matrices, Noordhoff, 1950 (translated from the German).
Bar-Hillel, Y., Gaifman, H. and Shamir, E.: ‘Finite-state languages: formal representations and adequacy problems’,Bull. Res. Council Israel 9, sec. F, no. 1 (1960), 155–166.
Beletskiĭ, M.I.: ‘The relationship between categorical and domination grammars’Cybernetics 5, no$14 (1969), 506–512. (Kibernetika (Kiev) 5, no. 4 (1969), 129–135 )
Beletskiĭ, M.I.: ‘Relationship between categorical and domination grammars II’,Cybernetics 5, no$15 (1969), 540–545. (Kibernetika (Kiev) 5, no. 5 (1969), 10–14 )
Gladkiĭ, A. V.:Formal grammars and languages, Moscow, 1973 (in Russian).
Thomason, R.H. (ED.):Formal philosophy, selected papers from Richard Montague, Yale Univ. Press, 1974.
Benthem, J.F.A.K. Van:Essay in logical semantics, Reidel, 1986.
Ginsburg, S.:The mathematical theory of context-free languages, McGraw-Hill, 1966.
Hopcroft, J.E. and Ullman, J.D.:Introduction to automata theory, languages and computation, Addison-Wesley, 1979.
Knuth, D.E.: ‘Semantics of context-free languages’,Math. Syst. Theory 2 (1968), 127–145.
Aho, A.V. and Ullman, J.D.:The theory of parsing, translation and compiling, 1–2, Prentice-Hall, 1973.
Lewis, H.R. and Papadimitriou, C.H.:Elements of the theory of computation, Prentice-Hall, 1981.
Earley, J.: ‘An effective context-free parsing algorithm’,Commun. ACM 13 (1970), 94–102.
Kasami, T.:An effective recognition and syntax algorithm for context-free languages, Report AFCRL-65–758, Air Force Cambridge Research Lab., 1965.
Younger, D.H.: ‘Recognition and parsing context-free languages in time n3’,Inf. and Control 10 (1967), 189–208.
Valiant, L.G.: ‘General context-free recognition in less than cubic time’,J. Comput. System Sci.10 (1975), 308–315.
Salomaa, A.:Formal languages, Acad. Press, 1973.
Hopcroft, J.E. and Ulman, J.D.:Introduction to automata theory, languages and computation, Addison-Wesley, 1979.
Lewis, H.R. and Papadimitriou, C.H.:Elements of the theory of computation, Prentice Hall, 1981.
Immerman, N.: ‘Nondeterministic space is closed under complementation’, inProc. 3rd. IEEE Conf. Structure in Complexity Theory. Georgetown June, IEEE, 1988, pp. 112–115.
Szelepcsényi, R.: ‘The method of forcing for nondeterministic automata’,EATCS Bulletin 33 (1987), 96–100.
Beletskii, M.I.: ‘Context-free and domination grammars and the algorithmic problems connected with them’,Cybernetics 3, no$14 (1967), 74–80. (Kibernetika (Kiev) 3, no. 4 (1967), 90–97 )
Gladkii, A.V.:Formal grammars and languages, Moscow, 1973 (in Russian).
Melčuk, I. [I.A. Melchuk]:Dependency syntax. Theory and practice, State Univ. New York Press, 1988 (translated from the Russian).
Hopcroft, J.E. and Ullman, J.D.:Introduction to automata theory, languages and computation, Addison-Wesley, 1979.
Gross, M. and Lentin, A.:Introduction to formal grammars, Springer, 1970 (translated from the French).
Gladkii, A. V.:Formal grammars and languages, Moscow, 1973 (in Russian).
Hopcroft, J.E. and Ullman, J.D.:Formal languages and their relation to automata, Addison-Wesley, 1969.
Gladkii, A.V. and Dikovskii, A.YA.: ‘Theory of formal grammars’,J. Soviet Math.2, no$15 (1974), 542–564. (Itogi Nauk. i Tekhn. Teor. Veroyatnost. Mat. Statist. Teoret. Kibernetika 10 (1972), 107–142 )
Maslov, A.N. and Stotskii, E.D.: ‘Classes of formal gram-mars’,J. Soviet Math.6, no$12 (1976), 189–209. (Itogi Nauk. i Tekhn. Teor. Veroyatnost. Mat. Statist. Teoret. Kibernetika 12 (1975), 156–187 )
Stotskii, E.D.: ‘Formal grammars and constraints on derivation’,Problems Inform. Transmission 7, no$11 (1971), 69–81. (Problemy Peredachi Informatsii, no. 1 (1971), 87–101 )
Stotskii, E.D.: ‘Control of the conclusion in formal grammars’,Problems Inform. Transmission 7, no$13 (1971), 257-270. (Problemy Peredachi Informatsii 7, no. 3 (1971), 87–102 )
Salomaa, A.:Formal languages, Acad. Press, 1973.
Hopcroft, J.E. and Ullmann, J.D.:Introduction to automata theory, languages and computation, Addison-Wesley, 1979.
Gladkiĭ, A. V.:Formal grammars and languages, Moscow, 1973 (in Russian).
Trakhtenbrot, B.A. and Barzdin’, YA.M.:Finite automata. Behaviour and synthesis, North-Holland, 1973 (translated from theRussian).
Ginsburg, A.:Algebraic theory of automata, Acad. Press, 1968.
Hartmanis, J. and Stearns, R.E.:Algebraic structure theory of sequential machines, Prentice Hall, 1966.
Hopcropt, J.E. and Ullman, J.D.:Introduction to automata theory, languages and computation, Addison-Wesley, 1979.
Ginsburg, S.:The mathematical theory of context-free languages, McGraw-Hill, 1966.
Salomaa, A.:Formal languages, Acad. Press, 1975.
Chomsky, N.:News in linguistics, 1962, pp. 412-527 (in Russian).
Ginsburg, S. and Partee, B.: ‘A mathematical model of transformational grammars’,Inform, and Control 15 (1969), 297–334.
Gladkiĭ, A.V. and Mel’chuk, I.A.:Informational questions of semiotics; linguistics and automatic translation, Moscow, 1971, pp. 16–41 (in Russian).
Peters, P.S. and Ritchie, R.W.: ‘On the generative power of transformational grammars’,Information Sciences 6 (1973), 49–83.
Chomsky, N.:Aspects of the theory of syntax, M.I.T., 1965.
Chomsky, N.:Lectures on gouvernment and binding, Foris, Dordrecht, 1981.
Bach, E.:An introduction to transformational grammars, Holt, Rinehart, Winston, 1964.
Berge, C.:The theory of graphs and their applications, Wiley, 1962 (translated from the French).
Ore, O.:Theory of graphs, Amer. Math. Soc., 1962.
Zykov, A.A.:The theory of finite graphs, 1, Novosibirsk, 1969 (in Russian).
Harary, F.:Graph theory, Addison-Welsey, 1969.
Berge, C.:Graphs and hypergraphs, North-Holland, 1973 (translated from the French).
Bondy, J.A. and Murthy, U.S.R.:Graph theory with applications, Macmillan, 1976.
Tutte, W.T.:Graph theory, Addison-Wesley, 1984.
Behzad, M., Chartrand, G. and Foster, L.L.:Graphs and digraphs, Prindle, Weber amp; Schmidt, 1979.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Biggs, N.:Algebraic graph theory, Cambridge Univ. Press, 1974.
Biggs, N.:Finite groups of automorphisms, Cambridge Univ. Press, 1971.
Frucht, R.: ‘Herstellung von Graphen mit vorgegebener abstrakter Gruppe’,Compos. Math.6 (1938), 239–250.
Ore, O.:Theory of graphs, Amer. Math. Soc., 1962.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
Harary, A.F.:Graph theory, Addison-Wesley, 1969.
Zykov, A.A.:The theory of finite graphs, 1, Novosibirsk, 1969 (in RuSsian).
Lesniak, L. and Oellerman, O.R.: ‘An eulerian exposition’,J. Graph Theory 10 (1986), 277–297.
Bermond, J.C.: ‘Hamiltonian graphs’, in L.W. Beineke and R.J. Wilson (eds.):Selected Topics in Graph Theory, Acad Press, Chapt. 6.
Walther, H.-J.:Ten applications of graph theory, Reidel, 1984.
Chen, W.K.:Applied graph theory, North-Holland, 1971.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Ore, O.:Theory of graphs, Amer. Math. Soc., 1962.
Shannon, C.E.: ‘A theorem on colouring the lines of a network’,J. Math. Phys.28 (1949), 148–151.
Fiorini, S. and Wilson, R.J.:Edge-colourings of graphs, Pitman, 1977.
Fiorini, S. and Wilson, R.J.: ‘Edge-colourings of graphs’, in L.W. Beineke and R.J. Wilson (eds.):Selected Topics in Graph Theory, Acad. Press, 1978, Chapt. 5.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
Read, R.C.: ‘An introduction to chromatic polynomials’,J. Comb. Theory 4 (1968), 52–71.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Ford, L. and Fulkerson, D.:Flows in networks, Princeton Univ. Press, 1962.
Tutte, W.T.:Connectivity in graphs, Oxford Univ. Press, 1966.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
Walther, HJ.:Ten applications of graph theory, Reidel, 1984.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Zykov, A.A.:The theory of finite graphs, 1, Novosibirsk, 1969 (in Russian).
Turan, P.: ‘An extremal problem in graph theory’,Mat. Fiz. Lapok 48 (1941), 436–452 (in Hungarian; German summary).
Bollobas, B.:Extremal graph theory, Acad. Press, 1978.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Graph theory. Coverings, imbeddings, tournaments, Moscow, 1974, pp. 82-159 (in Russian; translated from the English, the French and the German).
White, A.T. and Beineke, L.W.: ‘Topological graph theory’, in L.W. Beineke and R,J. Wilson (eds.):Selected topics in graph theory, Acad. Press, 1978, Chapt. 2.
White, A.T.: ‘The proof of the Heawood conjecture’, in L.W. Beineke and R.J. Wilson (eds.):Selected topics in graph theory, Acad. Press, 1978, Chapt. 3.
White, A.T.:Graphs, groups and surfaces, North-Holland, 1973.
Ringel, G.:Map colour theorem, Springer, 1974.
Hopcroft, J.E. and Tarjan, R.:Isomorphism of planar graphs, Plenum, 1972, pp. 131–152; 187–212.
Kelly, P.J.: ‘A congruence theorem for trees’,Pacific J. Math.7 (1957), 961–968.
Read, R.C. and Corneil, D.G.: ‘The graph isomorphism disease’,J. Graph Theory 1 (1977), 339–363.
Gati, G.: ‘Further annotated bibliography on the isomorphism disease’,J. Graph Theory 3 (1979), 95–109.
Ulam, S.M.:A collection of mathematical problems, Wiley, 1960.
Bondy, J.A. and Hemminger, R.L.: ‘Graph reconstruction — a survey’,J. Graph Theory 1 (1977), 227–268.
Nash-Williams, C. St. J. A.: ‘The reconstruction problem’, in L.W. Beineke and R.J. Wilson (eds.):Selected Topics in Graph Theory, Acad. Press, 1978, Chapt. 8.
Hopcroft, J.E. and Tarjan, R.E.:Complexity of computer computations, Plenum, 1972, pp. 131–152; 187–212.
Hopcroft, J.E. and Tarjan, R.E.: ‘Efficient planarity testing’,J. ACM 21 (1974), 549–568.
Zykov, A.A.:The theory of finite graphs, 1, Novosibirsk, 1969 (in Russian).
Kozyrev, V.P.: ‘Graph theory’,J. Soviet Math.2 (1974), 489–519. (Itogi Nauk. i Tekhn. Ser. Teor. Veroyatn. Mat. Stat. Teoret. Kibernet.10 (1972), 25–75)
Harary, F.:Graph theory, Addison-Wesley, 1969.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
De Wilde, M.:Closed graph theorems and webbed spaces, Pitman, 1978.
Schaefer, H.H.:Topological vector spaces, Macmillan, 1966.
Zykov, A.A.:The theory of finite graphs, 1, Novosibirsk, 1969 (in Russian).
Harary, F.:Graph theory, Addison-Wesley, 1969.
Picard, C.F.:Graphs and questionnaires, North-Holland, 1980 (translated from the French).
Harary, F., Norman, R.Z. and Cartwright, D.:Structural models. An introduction to the theory of directed graphs, Wiley, 1965.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
Harary, F.:Graph theory, Addison-Wesley, 1969.
Ore, O.:The four-colour problem, Acad. Press, 1967.
Woodall, D.R. and Wilson, R.J.: ‘The Appel-Haken proof of the four-colour theorem’, in L.W. Beineke and R.J. Wilson (eds.):Selected Topics in Graph Theory, Acad. Press, 1978, Chapt. 4.
Wilson, R.J.:Introduction to graph theory, Longman, 1985.
Moore, E.F. and Shannon, C.E.: ‘Reliable circuits using less reliable relays, I, II’,J. Franklin Inst.1 (1960), 109–148.
Stepanov, V.E.:Problems in Cybernetics. Proc. Sem. in comb, math., Moscow, 1973, pp. 164–185 (in Russian).
Discrete mathematics and mathematical problems in cybernetics, 1, Moscow, 1974 (in Russian).
Sapozhenko, A.: ‘The geometric structure of almost all Boolean functions’,Probl. Kibernetiki 30 (1975), 227–261 (in Russian).
Erdos, P. and Renyi, A.: ‘On random graphs I’,Publ. Math. Debrecen 6 (1959), 290–297.
Erdos, P. and Renyi, A.: ‘On the evolution of random graphs’,Publ. Math. Inst. Hung. Acad. Sci.5 (1960), 17–61.
Bollobas, B. (ed.):Graph theory and combinatorics, Acad. Press, 1984.
Euler, L.:Commentationes Arithmetica Collectae, St. Peters-burg, 1766, pp. 66–70.
Kirchhoff, G.:Poggendorff Annalen 72 (1847), 497–508.
Cayley, A.: ‘On the theory of the analytical forms called trees’, inCollected mathematical papers, Vol. 3, Cambridge Univ. Press, 1854, pp. 242–26.
Konig, D.:Theorie der endlichen und unendlichen Graphen, Teubner, reprint, 1986.
Berge, C.:The theory of graphs and their applications, Wiley, 1962 (translated from the French).
Zykov, A.A.:The theory of finite graphs, 1, Novosibirsk, 1969 (in Russian).
Harary, F.:Graph theory, Addison-Wesley, 1969.
Kozyrev, V.P.: ‘Graph theory’,J. Soviet Math.2 (1974), 489–519. (Itogi Nauk. i Tekhn. Teor. Veroyat. Mat. Stat. Teor. Kibern.10 (1972), 25-74)
Harary, F and Palmer, E.:Graphical enumeration, Acad. Press, 1973.
Markov, A. A.: Theory of algorithms, Israel Progr. Sci. Transl., 1961 (translated from the Russian). Also: Trudy Mat. Inst. Steklov. 42 (1954).
Markov, A.A. and Nagorny, N.M. [N.M. Nagornyĭ]:The theory of algorithms, Kluwer Acad. Publ., 1988 (translated from the Russian).
Hodge, W.V.D. and Pedoe, D.:Methods of algebraic geometry, 2, Cambridge Univ. Press, 1952.
Husemoller, D.:Fibre bundles, McGraw-Hill, 1966.
Borel, A.: ‘Sur la cohomogie des espaces fibrés principaux et des espaces homogenes de groupes de Lie compacts’,Ann of Math.57 (1953), 115–207.
Borel, A.: ‘La cohomologie mod 2 de certains espaces homogénes’,Comm. Math. Helv.27 (1953), 165–197.
Borel, A. and Serre, J.-P.: ‘Groupes de Lie et puissances réduites de Steenrod’,Amer. J. Math.75 (1953), 409–448.
Chern, S.S.:Complex manifolds without potential theory, Springer, 1979.
Griffiths, P.A. and Harris, J.E.:Principles of algebraic geometry, 1–2, Wiley, 1978.
Wells, R.O., Jr.:Differential analysis on complex manifolds, Springer, 1980.
Sretenskiĭ, L.N.:Theory of the Newton potential, Moscow- Leningrad, 1946 (in Russian).
Duboshin, G.N.:The theory of attraction, Moscow, 1961 (in Russian).
Einstein, A.:Selected works, Vol. 1–2, Moscow, 1966 (in Russian).
Fock, V.A. [V.A. Fok]:The theory of space, time and gravitation, Macmillan, 1954 (translated from the Russian).
Weber, J.:General relativity and gravitational waves, Interscience, 1961.
Synge, J.L.:Relativity: the general theory, North-Holland amp; Interscience, 1960.
Petrov, A.Z.:New methods in general relativity theory, Moscow, 1966 (in Russian).
Karal’nikova, I.I.: ‘The history of the development of the pre-relativistic interpretations on the nature of gravitation’,Uchen. Zap. Yaroslavsk. Ped. Inst. Kafedra Astron. i Teoret. Fiz.56 (1963) (in Russian).
Zel’dovich, Ya. B. and Novikov, I.D.:Relativistic astrophysics, Moscow, 1967 (in Russian).
Petrov, A.Z.: ‘The general theory of relativity’, inThe development of physics in the USSR, Vol. 1, Moscow, 1967 (in Russian).
Zel’dovich, Ya.B. and Novikov, I.D.:Relativistic astrophysics, 1. Stars and relativity, Chicago, 1971 (translated from the Russian).
Zel’dovich, Ya.B. and Novikov, I.D.:Relativistic astrophysics, 2. Structure and evolution of the universe, Chicago, 1983 (translated from the Russian).
Isaacson, R.A.:Phys. Rev.166 (1968), 1263.
Isaacson, R.A.:Phys. Rev.166 (1968), 1272.
McMillan, W.D.:The theory of the potential, McGraw-Hill, 1930.
Jammer, M.:Concepts of force, Harvard Univ. Press, 1957. Especially Chapt. 10.
Cohen, I.B.: The ‘principia’, universal gravitation, and the ‘Newtonian style’ in relation to the Newtonian revolution in science’, in Z. Bechler (ed.):Contemporary Newtonian research, Reidel, 1982, pp. 21–108.
Westfall, R.S.:Force in Newtonian physics, Macdonald, 1971.
Hulse, R.A. and Taylor, J.H.:Astrophysics J. Lett.195 (1975), L51.
Shapiro, S.L. and Teukolsky, S.A.:Black holes, white dwarfs and neutron stars, Wiley, 1983, p. 479.
Dewitt, C. and Dewitt, B. (eds.):Relativity, groups and topology, Gordon amp; Breach, 1964.
Weyl, H.:Space-Time-Matter, Dover, reprint, 1950 (translated from the German).
Einstein, A.:Selected works, 1–2, Moscow, 1966 (in Russian).
Misner, C.W., Thorne, K.S. and Wheeler, J.A.:Gravitation, Freeman, 1973.
Kramer, D., Stephani, H., MacCallum, M. and Herlt, E.:Exact solutions of Einstein’s field equations, Cambridge Univ. Press, 1980.
Petrov, A.Z.:Einstein spaces, Pergamon, 1969 (translated from the Russian).
Hawking, S.W. and Ellis, G.F.R.:The large-scale structure of space-time, Cambridge Univ. Press, 1973.
Held, A. (ed.):General relativity and gravitation. One hundred years after the birth of Albert Einstein, 1–2, Plenum, 1980.
Kramer, D. and Neugebauer, G.:Båcklund transformations in general relativity, Lect. notes in physics, 205, Springer, 1984, pp. 1–25.
Hauser, I.:On the homogeneous Hilbert problem for effecting Kinnersley— Chitre transformations, Lect. notes in physics, 205, Springer, 1984, pp. 128–175.
Xanthopoulos, B.C.:Superposition of solutions in general relativity, Lect. notes in physics, 239, Springer, 1985, pp. 109–117.
Chinea, F.J.:Vector Båcklund transformations and associated superposition principle, Lect. notes in physics, 205, Springer, 1984, pp. 55–67.
Ernst, F.J.:The homogeneous Hilbert problem: practical application, Lect. notes in physics, 205, Springer, 1984, pp. 176–185.
Xanthopoulos, B.C.:Symmetries and solutions of the Einstein equations, Lect. notes in physics, 239, Springer, 1985, pp. 77–108.
Schmidt, B.G.:The Geroch group is a Banach Lie group, Lect. notes in physics, 205, Springer, 1984, pp. 113–127.
Vinogradov, I.M.:Elements of number theory, Dover, 1954 (translated from the Russian).
Bukhshtab, A.A.:Number theory, Moscow, 1966 (in Russian).
Markushevich, A.I.:Division with remainder in arithmetic and algebra, Moscow-Leningrad, 1949 (in Russian).
Faure, R., Kaufman, A. and Denis-Papin, M.:Mathématique nouvelle, Dunod, 1964.
Lang, S.:Algebra, Addison-Wesley, 1974.
Ireland, K. and Rosen, M.:A classical introduction to modern number theory, Springer, 1982.
Waerden, B.L. van der:Algebra, 1, Springer, 1967 (translated from the German).
Green, J.: ‘On the structure of semigroups’,Ann. of Math.54 (1951), 163–172.
Lyapin, E.S.:Semigroups, Amer. Math. Soc., 1974 (translated from the Russian).
Clifford, A.H. and Preston, G.B.:The algebraic theory of semigroups, 1–2, Amer. Math. Soc., 1961–1967.
The algebraic theory of automata, languages and semi-groups, Moscow, 1975 (in Russian; translated from the English).
Hofmann, K.H. and Mostert, P.:Elements of compact semigroups, C.E. Merrill, Columbus, Ohio, 1966.
Green, G.:An essay on the application of mathematical analysis to the theories of electricity and magnetism, Nottingham, 1828. Reprint: Mathematical papers, Chelsea, reprint, 1970, pp. 1–82.
Maxwell, J.:Selected works on the theory of electromagnetic fields, Moscow, 1954 (in Russian; translated from the English).
Smirnov, V.I.:A course of higher mathematics, 2, Addison-Wesley, 1964 (translated from the Russian).
Courant, R. and Hilbert, D.:Methods of mathematical physics. Partial differential equations, 2, Interscience, 1965 (translated from the German).
Vladimirov, V.S.:Equations of mathematical physics, Mir, 1984 (translated from the Russian).
Sobolev, S.L.:Partial differential equations of mathematical physics, Pergamon, 1964 (translated from the Russian).
Miranda, C.:Partial differential equations of elliptic type, Springer, 1970 (translated from the Italian).
Dunford, N. and Schwartz, J.T.:Linear operators. Spectral theory, 2, Interscience, 1963.
Lions, J.L. and Magenes, E.:Non-homogenous boundary value problems and applications, 1–2, Springer, 1972 (translated from the French).
Naĭmark, M.A.:Lineare Differentialoperatoren, Akademie- Verlag, 1960 (translated from the Russian).
Keldysh, M.V.: ‘On the characteristic values and characteristic functions of certain classes of non-self-adjoint equations’,Dokl. Akad. Nauk. SSSR 77, no. 1 (1951), 11–14 (in Russian).
Sobolev, V.V.:A course in theoretical astrophysics, Moscow, 1967 (in Russian).
Bers, L., John, F. and Schechter, M.:Partial differential equations, Interscience, 1964.
Gårding, L.: ‘Dirichlet’s problem for linear elliptic partial differential equations’,Math. Scand.1, no. 1 (1953), 55–72.
Friedman, A.:Partial differential equations of parabolic type, Prentice-Hall, 1964.
Eĭdel’man, S.D.:Parabolic systems, North-Holland, 1969 (translated from the Russian).
Hale, J.K.:Ordinary differential equations, Wiley, 1980.
Garabedlan, P.R.:Partial differential equations, Wiley, 1964.
Stoĭlov, S.:The theory of functions of a complex variable, 1–2, Moscow, 1962 (in Russian; translated from the Rumanian).
Nevanlinna, R.:Uniformisierung, Springer, 1953.
Brélot, M.:Eléments de la théorie classique du potentiel, Centre Docum. Univ. Paris, 1959.
Helms, L.L.:Introduction to potential theory, Wiley (Interscience), 1969.
Janssen, K.: ‘On the existence of a Green function for harmonic spaces’,Math. Annalen 208 (1974), 295–303.
Landkof, N.S. [N.S. Landkov]:Foundations of modern potential theory, Springer, 1972 (translated from the Russian).
Bedford, E.:Survey of pluri-potential theory, forthcoming.
Cegrell, U.:Capacities in complex analysis, Vieweg, 1988.
Demailly, J.P.: ‘Mesures de Monge—Ampère et mesures pluriharmoniques’,Math. Z.194 (1987), 519–564.
Bogolyubov, N.N. and Tyablikov, S.V.: ‘Retarded and advanced Green functions in statistical physics’,Soviet Phys. Dokl 4 (1960), 589–593. (Dokl Akad. Nauk SSSR 126 (1959), 53 )
Zubarev, D.N.: ‘Double-time Green functions in statistical physics’,Soviet Phys. Uspekhi 3 (1960), 320–345. (Uspekhi Fiz. Nauk 71 (1960), 71–116 )
Bogolyubov, Jr., N.N. and Sadovnikov, B.I.:Zh. Eksperim. Teor. Fiz.43, no. 8 (1962), 677.
Bogolyubov, Jr., N.N. and Sadovnikov, B.I.:Some questions in statistical mechanics, Moscow, 1975 (in Russian).
Statistical physics and quantum field theory, Moscow, 1973 (in Russian).
Landkof, N.S. [N.S. Landkov]:Foundations of modern potential theory, Springer, 1972, Chapt. 1 (translated from the Russian).
Brélot, M. and Choquet, G.: ‘Espaces et lignes de Green’,Ann. Inst. Fourier 3 (1952), 199–263.
Brélot, M.:On topologies and boundaries in potential theory, Springer, 1971.
Brélot, M. and Choquet, G.: ‘Espaces et lignes de Green’,Ann. Inst. Fourier 3 (1952), 199–263.
Berezin, I.S. and Zhidkov, N.P.:Computing methods, Pergamon, 1973 (translated from the Russian).
Brass, H.:Quadraturverfahren, Vandenhoeck amp; Ruprecht, 1977.
Brunner, H. and Houwen, P.J. van der:The numerical solution of Volterra equations, North-Holland, 1986.
Brunner, H. and Lambert, J.D.: ‘Stability of numerical methods for Volterra integro-differential equations’,Computing 12 (1974), 75–89.
Matthys, J.: ‘A stable linear multistep method for Volterra integro-differential equations’,Numer. Math.27 (1976), 85–94.
Steinberg, J.: ‘Numerical solution of Volterra integral equations’,Numer. Math.19 (1972), 212–217.
Wolkenfelt, P.H.M.: ‘The construction of reducible quadrature rules for Volterra integral and integro-differential equations’,IMA J. Numer. Anal.2 (1982), 131–152.
Lapodus, L. and Pinder, G.:Numerical solution of partial differential equations in science and engineering, Wiley, 1982.
Gronwall, T.H.: ‘Summation of series and conformal mapping’,Ann. of Math.33, no. 1 (1932), 101–117.
Grothendieck, A.: ‘Sur quelôques points d’algébre homologique’,Tohoku Math. J. (2) 9 (1957), 119–221.
Bucur, I. and Deleanu, A.:Introduction to the theory of categories and functors, Wiley, 1968.
Popesco, N. [N. Popescu] and Gabriel, P.: ‘Charactérisation des catégories abéliennes avec générateurs et limites inductives exactes’,C.R. Acad. Sci.258 (1964), 4188–4190.
Popescu, N.:Abelian categories with applications to rings and modules, Acad. Press, 1973.
Bucur, I. and Deleanu, A.:Introduction to the theory of categories and functors, Wiley, 1968.
Grothendieck, A.: ‘Technique de descente et théorèmes d’existence en géométrie algébrique, II’,Sem. Bourbaki Exp.195(1960).
Maclane, S.:Categories for the working mathematician, Springer, 1971.
Yoneda, N.: ‘On the homology theory of modules’,J. Fac. Sci. Tokyo. Sec.17 (1954), 193–227.
Swan, R.: ‘The Grothendieck ring of a finite group’,Topology 2 (1963), 85–110.
Borel, A. and Serre, J.P.: ‘Le théorème de Riemann—Roch’,Bull. Soc. Math. France 86 (1958), 97–136.
Atiyah, M.F.:K-theory: lectures, Benjamin, 1967.
Lang, S.:Algebra, Addison-Wesley, 1974.
Bass, H.:Algebraic K-theory, Benjamin, 1968.
Karoubi, M.:K-theory, Springer, 1978.
Berrick, J.:An approach to algebraic K-theory, Pitman, 1982.
Grötzsch, H.: ‘Ueber einige Extremalprobleme der konformen Abbildung I’,Ber. Verk Sächsisck Akad. Wiss. Leipzig, Matk-Naturwiss. Kl 80 (1928), 367–376.
Grötzsch, H.: ‘Ueber einige Extremalprobleme der konformen Abbildung II’,Ber. Verh. Sächsisck Akad. Wiss. Leipzig, Matk-Naturwiss. Kl 80 (1928), 497–502.
Grötzsch, H.: ‘Ueber die Verzerrung bei schlichter konformer Abbildung mehrfach zusammenhängender Bereiche II’,Ber. Verk Sächsisch. Akad. Wiss. Leipzig Matk-Naturwiss. Kl 81 (1929), 217–221.
Grötzsch, H.:Ber. Verk Sächsisch. Akad. Wiss. Leipzig, Matk-Naturwiss. Kl 82 (1930), 69–80.
Grötzsch, H.: ‘Zum Parallelschlitztheorem der konformen Abbildung schlichter unendlichvielfach zusammenhängender Bereiche’,Ber. Verk Sächsisck Akad Wiss. Leipzig, Matk. Naturwiss. Kl 83 (1931), 185–200.
Grötzsch, H.: ‘Ueber moglichts konformen Abbildungen von schlichter Bereiche’,Ber. Verk Sächsisck Akad Wiss. Leipzig, Matk-Naturwiss. Kl.84 (1932), 114–120.
Goluzin, G.M.:Geometric theory of functions of a complex variable, Amer. Math. Soc., 1969 (translated from the Russian).
Jenkins, J. A.:Univalent functions and conformal mappings, Springer, 1958.
Grötzsch, H.: ‘Ueber die Verzerrung bei schlichter konformer Abbildung mehrfach zusammenhängender Bereiche I’,Ber. Verh. Sachsisch. Akad. Wiss. Leipzig. Matk-Naturwiss. Kl 81 (1929), 38–47.
Grötzsch, H.: ‘Ueber die Verzerrung bei schlichter konformer Abbildung mehrfach zusammenhangender Bereiche II’,Ber. Verh. Sachsisck Akad. Wiss. Leipzig. Matk-Naturwiss. Kl 81 (1929), 217–221.
Grötzsch, H.:Ber. Verh. Sachsisck Akad. Wiss. Leipzig. Matk-Naturwiss. Kl 82 (1930), 69–80.
Grötzsch, H.: ‘Ueber die Verschiebung bei schlichter kon-former Abbildung schlichter Bereiche II’,Ber. Verh. Sachsisch. Akad. Wiss. Leipzig. Matk-Naturwiss. Kl 84 (1932), 269–278.
Jenkins, J. A.:Univalent functions and conformal mappings, Sponger, 1958.
Kargapolov, M.I. and Merzlyakov, Yu.I.:Fundamentals of the theory of groups, Springer, 1979 (translated from the Russian).
Kurosh, A.G.:The theory of groups, 1–2, Chelsea, 1955-1956 (translated from the Russian).
Hall, M.:The theory of groups, Chelsea, reprint, 1976.
Shmidt, O. Yu.:Selected works on mathematics, Moscow, 1959, pp. 17–70 (in Russian).
Wussing, H.:The genesis of the abstract group concept, M.I.T., 1984 (translated from the German).
Fedorov, E.S.:Symmetry and the structure of crystals. Fundamental works, Moscow, 1949, pp. 111–255 (in Russian).
Bogolyubov, N.N., Logunov, A.A. and Todorov, I.T.:Introduction to axiomatic quantum field theory, Benjamin, 1975 (translated from the Russian).
Kronecker, L.: ‘Auseinandersetzung einiger Eigenschaften der Klassenzahl idealer complexer Zahlen’,Monatsber. K. Preuss. Akad. Wissenschaft. Berlin (1870), 881–889. (Also in: Werke, Vol. 1,p. 271).
Weyl, H.:Symmetry, Princeton Univ. Press, 1952 (translated from the German).
Magnus, W., Karrass, A. and Solitar, D.:Combinatorial group theory, Interscience, 1966.
Coxeter, H.S.M. and Moser, W.O.J.:Generators and relations for discrete groups, Springer, 1957.
Burnside, W.:Theory of groups of finite order, Dover, reprint, 1955.
Weber, H.:Lehrbuch der Algebra, II, Vieweg, 1899, Buch 1, Abschnitt 1.
Cayley, A.: ‘Note on the theory of permutations’,Phil. Mag. (3) 34 (1849), 527–529. (Also in: Collected mathematical papers, Vol. I, 432–424 ).
Cayley, A.: ‘On the theory of groups as depending on the symbolical equation θn=1’,Phil. Mag. (4) 7 (1854), 40–47. (Also in: Collected mathematical papers, Vol. II, 123–130 ).
Cayley, A.: ‘On the theory of groups as depending on the symbolical equation θn=1. Second part’,Phil. Mag. (4) 7 (1854), 408–409. (Also in: Collected mathematical papers, Vol. II, 131–132 ).
Frobenius, G.F.: ‘Neuer Beweis des Sylowschen Satzes’,J. Reine Angew. Math.100 (1887), 179–181.
Schur, I.:Sitzungsber. Preuss. Akad. Wiss. (1905), 406–432.
Curtis, C.W. and Reiner, I.:Representation theory of finite groups and associative algebras, Interscience, 1962.
Passman, D.S.:The algebraic structure of group rings, Wiley, 1977.
Contemporary problems in mathematics, Vol. 2, Moscow, 1973, pp. 5-118.
Bovdi, A.A.:Group rings, Uzhgorod, 1974 (in Russian).
Sehgal, S.K.:Topics in group rings, M. Dekker, 1978.
Sandling, R.:The isomorphism problem for group rings, Lecture notes in math., Springer, 1985, pp. 256–288.
Naĭmark, M.A.:Normed rings, Reidel, 1984 (translated from the Russian).
Guichardet, A.:Analyse harmonique commutative, Dunod, 1968.
Hewitt, E. and Ross, K.A.:Abstract harmonic analysis, 1–2, Springer, 1979.
Dixmier, J.:C* algebras, North-Holland, 1977 (translated from the French).
Markov, A. A.: Theory of algorithms, Israel Progr. Sci. Transl., 1961 (translated from the Russian). Also: Trudy Mat. Inst. Steklov. 42 (1954).
Markov, A.A.: ‘Indistinguishability by invariants in the theory of associative calculi’,Izv. Akad. Nauk SSSR Ser. Mat.27, no. 4 (1963), 907–936 (in Russian).
Dehn, M.: ‘Ueber unendliche diskontinuierliche Gruppen’,Math. Ann.71 (1911), 116–144.
Magnus, W.: ‘Ueber diskontinuierliche Gruppen mit einer definierenden Relation (der Freiheitssatz)’,J. Reine Angew. Math.163, no. 2 (1931), 141–165.
Novikov, P.S.: ‘On algorithmic unsolvability of the word problem’,Dokl. Akad. Nauk SSSR 85 (1952), 709–712 (in Russian).
Novikov, P.S.:On algorithmic unsolvable problems of word identity in group theory, Amer. Math. Soc., 1958 (translated from the Russian).
Boone, W.W.: ‘Certain simple unsolvable problems of group theory I, II’,Indag. Math.16 (1954), 231–237; 492–497.
Boone, W.W.: ‘Certain simple unsolvable problems of group theory III’,Indag. Math.17 (1955), 571–577.
Boone, W.W.: ‘Certain simple unsolvable problems of group theory IV, V’,Indag. Math.19 (1957), 22–27; 227–232.
Britton, J.L.: ‘The word problem for groups’,Proc. London Math. Soc. (3) 8, no. 32 (1958), 493–506.
Novikov, P.S.: ‘Unsolvability of the conjugacy problem in group theory’,Izv. Akad. Nauk SSSR Ser. Mat.18, no. 6 (1954), 485–524 (in Russian).
Adyan, S.I.: ‘Algorithmic unsolvablity of problems of recognizing certain properties of groups’,Dokl. Akad. Nauk SSSR 103 (1955), 533–535 (in Russian).
Adyan, S.I.: ‘Finitely-presented groups and algorithms’,Dokl. Akad. Nauk SSSR 117, no. 1 (1957), 9–12 (in Russian).
Adyan, S.I.: ‘Unsolvability of certain algorithmic problems in the theory of groups’,Trudy Moskov. Mat. Obshch.6 (1957), 231–298 (in Russian).
Rabin, M.O.: ‘Algorithmic unsolvability of group theoretic problems’,Ann. of Math.67 (1958), 172–194.
Markov, A.A.: ‘The unsolvability of the homeomorphism problem’,Dokl. Akad. Nauk SSSR 121, no. 2 (1958), 218–220 (in Russian).
Markov, A. A. and Nagornyĭ, N.M.:The theory of algorithms, Kluwer, 1988 (translated from the Russian).
Hurwitz, R.D.: ‘A survey of the conjugacy problem’,Contemp. Math.33 (1984), 278–298.
Boone, W.W., Cannonito, F.B. and Lyndon, R.C. (eds.):Word problems, North-Holland, 1973.
Manin, YU.I.: ‘The theory of commutative formal groups over fields of finite characteristic’,Russian Math. Surveys 18 (1963), 1–80. (Uspekhi Mat. Nauk 18, no. 6 (1963), 3–90 )
Demazure, M. and Grothendieck, A.:Schémas en groupes, 1, Springer, 1970.
Conte, A. and Murre, J.P.: ‘The Hodge conjecture for Fano complete intersections of dimension four’, inJ. de Geometrie Algebrique d’Angers, juillet 1979, Sythoff amp; Noordhoff, 1980, pp. 129–141.
Maclane, S.:Categories for the working mathematician, Springer, 1971.
Eckmann, B. and Hilton, P.J.: ‘Group-like structures in general categories I. Multiplications and comultiplications’,Math. Ann.145 (1962), 227–255.
Hu, S.-T.:Homotopy theory, Acad. Press, 1959.
Spanier, E.H.:Algebraic topology, McGraw-Hill, 1966, Chapt. 2.
Egorov, I.P.: ‘Motions in generalized differential-geometric spaces’,Itogi Nauk. Algebra Topol. Geom.1965 (1967), 375–428 (in Russian).
Egorov, I.P.:Motions in spaces with an affine connection, Kazan, 1965 (in Russian).
Rashewski, P.K. [P.K. Rashevskiĭ]:Riemannsche Geometrie und Tensor analyse, Deutsch. Verlag Wissenschaft., 1959 (translated from the Russian).
Egorov, I.P.:Geometry, Moscow, 1972 (in Russian).
Kobayashi, S.:Transformation groups, Springer, 1972.
Bredon, G.:Introduction to compact transformation groups, Acad. Press, 1972.
Tate, J. and Oort, F.: ‘Group schemes of prime order’,Ann. Sc. Ecole Norm. Sup.3 (1970), 1–21.
Demazure, M. and Gabriel, P.:Groupes algebriques, 1, Masson, 1970.
Oort, F.:Commutative group schemes, Springer, 1966.
Oort, F.: ‘Finite group schemes, local moduli for abelian varieties and lifting problems’,Compos. Math.23 (1971), 256–296.
Demazure, M. and Grothendieck, A.:Schémas en groupes I–II, Lecture notes in math., 151–153, Springer.
Mumford, D.:Abelian varieties, Oxford Univ. Press, 1974.
Mandel’shtam, L.I.:Complete works, Vol. 5, Leningrad, 1950, pp. 315–319; 419–425; 439–467 (in Russian).
Gorelik, G.S.:Oscillations and waves, Moscow-Leningrad, 1950 (in Russian).
Brillouin, L.:Les tenseur en mécanique et en élasticité, Masson, 1949.
Chernikov, S.N.: ‘Finiteness conditions in general group theory’,Uspekhi Mat. Nauk 14, no. 5 (89) (1959), 45–96 (in Russian).
Robinson, D.J.S.:Finiteness condition and generalized soluble groups, 1–2, Springer, 1972.
Kurosh, A.G.:The theory of groups, 1–2, Chelsea, 1955–1956 (translated from the Russian).
Mal’tsev, A.I.: ‘On some classes of infinite solvable groups’,Mat. Sb.28, no. 3 (70) (1951), 567–588 (in Russian).
Shunkov, V.P.: ‘On locally finite groups with a minimality condition for Abelian subgroups’,Algebra and Logic 9, no$15 (1970), 350–370. (Algebra i Logika 9, no. 5 (1970), 579–615 )
Kurosh, A.G.:The theory of groups, 1–2, Chelsea, 1955–1956 (translated from the Russian).
Kurosh, A.G.:The theory of groups, 1–2, Chelsea, 1955–1956 (translated from the Russian).
Kurosh, A.G.:Lectures on general algebra, Chelsea, 1963 (translated from the Russian).
Cohn, P.M.:Universal algebra, Reidel, 1981.
Boruvka, O.:Foundations of the theory of groupoids and groups, Wiley, 1976 (translated from the German).
Bruck, R.H.:A survey of binary systems, Springer, 1958.
Brandt, H.: ‘Ueber eine Verallgemeinerung des Gruppenbegriffes’,Math. Ann.96 (1926), 360–366.
Higgins, P.J.:Categories and groupoids, v. Nostrand-Reinhold, 1971.
Ehresmann, G: ‘Structures locales et catégories ordonnés’, inOeuvres complétes et commentées, Partie II, 1980. Supplément aux Cahiers de Topologie et Géométrie Différentielle Catégoriques.
Brown, R.:Elements of modern topology, McGraw-Hill, 1968.
Brown, R.: ‘From groups to groupoids: a brief survey’,Bull. London Math. Soc.19 (1987), 113–134.
Levin, B. Ya.:Distribution of zeros of entire functions, Amer. Math. Soc., 1980 (translated from the Russian).
Markushevich, A.I.:Theory of functions of a complex variable, 2, Chelsea, 1977 (translated from the Russian).
Ronkin, L.I.:Introduction to the theory of entire functions of several variables, Amer. Math. Soc., 1974 (translated from the Russian).
Lelong, P. and Gruman, L.:Entire functions of several variables, Springer, 1986.
Boas, R.P.:Entire functions, Acad. Press, 1954.
Finikov, S.P.:Theorie der Kongruenzen, Akademie-Verlag, 1959 (translated from the Russian).
Shulikovskiĭ, V.I.:Classical differential geometry in a tensor setting, Moscow, 1963 (in Russian).
Guichard, G.: ‘Surfaces rapporteés á leurs lignes asymptotiques et congruences rapportees a leurs développables’, Ann. Sc. Ec. Norm. Sup. (3) 6 (1889), 333–348.
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Hazewinkel, M. (1989). G. In: Hazewinkel, M. (eds) Encyclopaedia of Mathematics. Soviet Mathematical Encyclopaedia, vol 4. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-5997-2_2
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