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Algebras with one ternary operation that satisfies certain identities.
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References
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Baer, R.: ‘Zur Einführung des Scharbegriffs’, J. Reine Angew. Math. 160 (1929), 199–207.
Certaine, J.: ‘The ternary operation (abc)=ab −1 c of a group’, Butt. Amer. Math. Soc 49 (1943), 869–877.
Vagner, V.V.: ‘The theory of generalized heaps and of generalized groups’, Mat. Sb. 32, no. 3 (1953), 545–632 (in Russian).
Vagner, V.V.: ‘Foundations of differential geometry and contemporary algebra’, in Proc. 4-th All-Union. Mat. Conf., Vol. 1, Leningrad, 1963, pp. 17–29 (in Russian).
Gluskin, L.M.: Ideals of semi-groups, 1, Saratov, 1965, pp. 179-197; 198-228 (in Russian).
Bakhvalov, N.S.: Numerical methods: analysis, algebra, ordinary differential equations, Mir, 1977 (translated from the Russian).
Vasil’ev, F.P.: Numerical methods for solving extremum problems, Moscow, 1980 (in Russian).
Evtushenko, Yu.G.: Numerical optimization techniques, Optimization Software, 1985 (translated from the Russian).
Heegaard, P.: ‘Sur l’analyse situs’, Bull Soc. Math France 44 (1916), 161–242. Translation of thesis (in Danish, 1898).
Weil, A.: ‘Number-theory and algebraic geometry’, in Proc. Internat. Congress Mathematicians Cambridge, 1950, Amer. Math. Soc., 1952, pp. 90-100.
Lang, S.: Diophantine geometry, Interscience, 1962.
Mumford, D.: Abelian varieties, Oxford Univ. Press, 1970. Appendix in Russian translation: Yu.I. Manin; The Mordell—Weil theorem (in Russian).
Manin, Yu.I.: ‘Height of theta points on an Abelian manifold, their variants and applications’, Izv. Akad. Nauk SSSR Ser. Mat. 28 (1964), 1363–1390 (in Russian).
Mumford, D.: ‘A remark on Mordell’s conjecture’, Amer. J. Math. 87 (1965), 1007–1016.
Néron, A.: ‘Quasi-fonctions et hauteurs sur les variétés abéliennes’, Ann. of Math. (2) 82 (1965), 249–331.
Faltings, G., et al.: Rational points, Vieweg, 1986.
Krull, W.: Primidealketten in allgemeinen Ringbereichen, Berlin-Leipzig, 1928.
Nagata, M.: Local rings, Interscience, 1962.
Zariski, O. and Samuel, P.: Commutative algebra, 1, Springer, 1975.
Serre, J.-P.: Algèbre locale. Multiplicités, Springer, 1965.
Mehra, J. and Rechenberg, H.: The historical development of quantum theory, 1–4, Springer, 1982.
Ball, R.: A treatise on the theory of screws, Dublin, 1876.
Kotel’nikov, A.P.: Screw calculus and some applications of it, etc., Kazan, 1895 (in Russian).
Blaschke, W.: Vorlesungen über Differentialgeometrie und geometrische Grundlagen von Einsteins Relativitätstheorie. Affine Differentialgeometrie, 2, Springer, 1923.
Dimentberg, F.M.: Screw calculus and its applications to mechanics, Moscow, 1965 (in Russian).
Zeiliger, D.N.: Complex line geometry, Leningrad-Moscow, 1934 (in Russian).
Byushgens, S.S.: Differential geometry, Moscow-Leningrad, 1940 (in Russian).
Blaschke, W.: Einführung in die Differentialgeometrie, Springer, 1950.
Do Carmo, M.: Differential geometry of curves and surfaces, Prentice Hall, 1976, p. 26.
Berger, M. and Gostiaux, B.: Differential geometry, Springer, 1988 (translated from the French).
Blaschke, W. and Leichtweiss, K.: Einführung in die Differentialgeometrie, Springer, 1973.
Do Carmo, M.: Differential geometry of curves and surfaces, Prentice-Hall, 1975, 214.
Spivak, M.: A comprehensive introduction to differential geometry, Publish or Perish, 1979, 218-219.
O’Neill, B.: Elementary differential geometry, Acad. Press, 1966.
Berger, M. and Gostiaux, B.: Differential geometry: manifolds, curves and surfaces, Springer, 1988 (translated from the French).
Kuo, H.H.: Gaussian measures on Banach spaces. Springer, 1975.
Cramér, H.: Mathematical methods of statistics, Princeton Univ. Press, 1946.
Ibragimov, I.A. and Has’minskiĭ, R.Z. [R.Z. Khas’minskiĭ]: Statistical estimation: asymptotic theory, Springer, 1981 (translated from the Russian).
Zolotarev, V.M.: ‘Properties and relations of certain types of metrics’, Zap. Nauchn Sem. Leningrad Otdel. Mat. Inst. Akad. Nauk. USSR 87 (1979), 18–35; 206-212 (in Russian). English summary.
Hellinger, E.: ‘Neue Begründung der Theorie quadratischer Formen von unendlichvielen Veränderlichen’, J. Reine Angew. Math. 136 (1909), 210–271.
Smirnov, V.I.: A course of higher mathematics, 5, Addison-Wesley, 1964 (translated from the Russian).
Danzer, L., Grünbaum, B. and Klee, V.: ‘Helly’s theorem and its relatives’, in V. Klee (ed.): Convexity, Proc. Symp. Pure Math., Vol. 7, Amer. Math. Soc., 1963, pp. 101–180.
Courant, R. and Hilbert, D.: Methods of mathematical physics. Partial differential equations, 2, Interscience, 1965 (translated from the German).
Tichonoff, A.N. [A.N. Tkhonov] and Samarskiĭ, A.A.: Differentialgleichungen der mathematischen Physik, Deutsch. Verlag Wissenschaft, 1959 (translated from the Russian).
Hensel, K.: ‘Neue Grundlagen der Arithmetik’, J. Reine Angew. Math. 127 (1904), 51–84.
Bourbaki, N.: Elements of mathematics. Commutative algebra, Addison-Wesley, 1972 (translated from the French).
Zassenhaus, H.: ‘Ueber eine Verallgemeinerung des Hensel-schen Lemmas’, Arch. Math. (Basel) 5 (1954), 317–325.
Azumaya, G.: ‘On maximally central algebras’, Nagoya Math. J. 2 (1951), 119–150.
Nagata, M: Local rings, Interscience, 1962.
Grothendieck, A.: ‘Eléments de géometrie algébrique. IV’, Publ. Math. IHES, no. 32 (1967)
Raynaud, M.: Anneaux locaux Henséliens, Lecture notes in math., 169, Springer, 1970.
Kurke, H., Pfister, G. and Roczen, M.: Henselsche Ringe, Deutsch. Verlag Wissenschaft., 1975.
Moise, E.E.: ‘An indecomposable plane continuum which is homeomorphic to each of its non-degenerate subcontinua’, Trans. Amer. Math. Soc. 63 (1948), 581–594.
Bing, R.H.: ‘A homogeneous indecomposable plane continuum’, Duke Math. J. 15 (1948), 729–742.
Herglotz, G.: ‘Ueber die Starrheit von Eiflächen’, Abh. Math. Sem Univ. Hamburg 15 (1943), 127–129.
Efimov, N.V.: ‘Qualitative questions of the theory of deformations of surfaces’, Uspekhi Mat. Nauk 3, no. 2 (1948), 47–158 (in Russian).
Huck, H., Roitsch, R., Simon, U., Vortisch, W., Wegner, B. and Wendland, W.: Beweismethoden der Differentialgeometrie im Grossen, Springer, 1973.
Klingenberg, W.: A course in differential geometry, Springer, 1978 (translated from the German).
Whittaker, E.T. and Watson, G.N.: A course on modern analysis, Cambridge Univ. Press, 1965.
Courant, R. and Hilbert, D.: Methods of mathematical physics, 1, Interscience, 1953 (translated from the German).
Krazer, A. and Franz, W.: Transzendente Funktionen, Akademie-Verlag, 1960.
Durand, L.: ‘Nicholson-type integrals for products of Gegenbauer functions and related topics’, in R.A. Askey (ed.): Theory and Application of Special Functions, Acad. Press, 1975, pp. 353-374.
Stewart, L: Galois theory, Chapman & Hall, 1979.
Berezin, I.S. and Zhidkov, N.P.: Computing methods, Pergamon, 1973 (translated from the Russian).
Lorentz, G.G., Jetter, K. and Riemenschneider, S.D.: Birkhoff interpolation, Addison-Wesley, 1983.
Mysovskih., I.P.: Lectures on numerical methods, Wolters-Noordhoff, 1969
Wendroff, B.: Theoretical numerical analysis, Acad. Press, 1966, Chapt. 1.
Laplace, P.S.: Mém. Cl. Sci. Math. Phys. Inst. France 58 (1810), 279–347.
Chebyshev, P.L.: Collected works, Vol. 2, Moscow-Leningrad, 1947, pp. 335–341.
Hermite, Ch.: C.R. Acad Sci. Paris 58 (1864), 93–100.
Hermtte, Ch.: C.R. Acad. Sci. Paris 58 (1864), 266–273.
Steklov, V.A.: Izv. Akad. Nauk 10 (1956), 403–416.
Suetin, P.K.: The classical orthogonal polynomials, Moscow, 1979 (in Russian).
Miller, Jr., W.: Symmetry and separation of variables, Addison-Wesley, 1977.
Schempp, W.: Harmonic analysis on the Heisenberg nilpotent Lie group, Longman, 1986.
Szegö, G.: Orthogonal polynomials, Amer. Math. Soc., 1975.
Titchmarsh, E.C.: Introduction to the theory of Fourier integrals, Oxford Univ. Press, 1948.
Gruber, P.M. and Lekkerkerker, C.G.: Geometry of numbers, North-Holland, 1987.
Rogers, C.A.: Packing and covering, Cambridge Univ. Press, 1964.
Delone, B.N.: The Peterburger school in number theory, Moscow-Leningrad, 1947 (in Russian).
Baranovskiĭ, E.P.: ‘Packings, coverings, partitionings and certain other distributions in spaces of constant curvature’, Progress in Math. 9 (1971), 209–253. (Itogi Nauk. Mat. Algebra Topol. Geom. 1967 (1969), 189-225)
Debnath, L.: ‘On the Hennite transform’, Mat. Vesnik 1 (1964), 285–292.
Zemanian, A.G.: Generalized integral transforms, Wiley, 1968.
Lichnerowicz, A.: Global theory of connections and holonomy groups, Noordhoff, 1976 (translated from the French).
Yano, K.: Differential geometry on complex and almost complex spaces, Pergamon, 1965.
Kobayashi, S. and Nomizu, K.: Foundations of differential geometry, 2, Wiley (Interscience), 1969.
Wells, jr., R.O.: Differential analysis on complex manifolds, Springer, 1980.
Bourbaki, N.: Elements of mathematics. Algebra: Algebraic structures. Linear algebra, 1, Addison-Wesley, 1974, Chapt. 1; 2 (translated from the French).
Dieudonné, J.A.: La géométrie des groups classiques, Springer, 1955.
Milnor, J. and Husemoller, D.: Symmetric bilinear forms, Springer, 1973.
O’Meara, O.T.: Introduction to quadratic forms, Springer, 1973.
Smirnov, V.I.: A course of higher mathematics, 4, Addison-Wesley, 1964, Chapt. 1 (translated from the Russian).
Vladmrov, V.S.: Gleichungen der mathematischen Physik, Mir, 1984 (translated from the Russian).
Gohberg, I. and Goldberg, S.: Basic operator theory, Birkhäuser, 1981.
Tricomi, F.G.: Integral equations, Interscience, 1957.
Gantmacher, F.R. [F.R. Gantmakher]: Matrix theory, 1–2, Chelsea, reprint, 1959 (translated from the Russian).
Noble, B. and Daniel, J.W.: Applied linear algebra, Prentice Hall, 1979.
Kobayashi, S. and Nomizu, K.: Foundations of differential geometry, 2, Wiley (Interscience), 1969.
Lichnerowicz, A.: Global theory of connections and holonomy groups, Noordhoff, 1976 (translated from the French).
Wells, jr., R.O.: Differential analysis on complex manifolds, Springer, 1980.
Weil, A.: Introduction à létude des variétés kahlériennes, Hermann, 1958.
Akhiezer, N.N. and Glazman, I.M.: Theory of linear operators in Hilbert space, 1–2, Pitman, 1981 (translated from the Russian).
Riesz, F. and Szökefalvi-Nagy, B.: Functional analysis, F. Ungar, 1955 (translated from the French).
Berger, M: Geometry, Springer, 1987 (translated from the French).
Coxeter, H.S.M.: Introduction to geometry, Wiley, 1961.
Hertz, H.: ‘Die Prinzipiell der Mechanik’, in Gesammelte Werke, Vol. 3, Barth, Leipzig, 1894.
Roze, N.V.: Lectures on analytical mechanics, 1, Leningrad, 1938 (in Russian).
Lindsay, R.B. and Margenau, H.: Foundations of physics, Dover, reprint, 1957.
Coolidge, J.L.: A treatise on algebraic plane curves, Dover, reprint, 1959.
Postnikov, M.M.: Introduction to Morse theory, Moscow, 1971 (in Russian).
Gunning, R.C. and Rossi, H.: Analytic functions of several complex variables, Prentice-Hall, 1965.
Krantz, S.G.: Function theory of several complex variables, Wiley, 1982.
Poincaré, H.: Les méthodes nouvelles de la mécanique céleste, 1–3, Gauthier-Villars, 1892–1899.
Zehnder, E.: ‘Homoclinic points near elliptic fixed points’, Comm. Pure Appl. Math. 26 (1973), 131–182.
Mel’nikov, V.K.: ‘On the stability of the centre for time-periodic perturbations’, Trans. Moscow Math. Soc. 12 (1963), 1–56. (Trudy Moskov. Mat. Obshch. 12 (1963), 3-52)
Smale, S.: ‘Dynamical systems and the topological conjugacy problem for diffeomorphisms’, in Proc. Internat. Congress Mathematicians Stockholm, 1962, Mittag-Leffler Inst., 1963, pp. 490-496.
Smale, S.: ‘Diffeomorphisms with many periodic points’, in S.S. Cairns (ed.): Differential and Combinatorial Topol., Princeton Univ. Press, 1965, pp. 63-80.
Shil’nikov, L.P.: ‘On a Poincaré—Birkhoff problem’, Math. USSR-Sb. 3, no. 3 (1967), 353–371. (Mat. Sb. 74 (116), no. 3 (1967), 378-397)
Alekseev, V.M.: ‘Quasirandom dynamical systems I’, Math. USSR-Sb. 5, no. 1 (1968), 73–128. (Mat. Sb. 76 (118), no. 1 (1968), 72-134)
Alekseev, V.M.: ‘Quasirandom dynamical systems II’, Math. USSR-Sb. 6, no. 4 (1968), 505–560. (Mat. Sb. 77 (119), no. 4 (1968), 545-601)
Alekseev, V.M.: ‘Quasirandom dynamical systems III’, Math. USSR-Sb. 7, no. 1 (1969), 1–43. (Mat. Sb. 78 (120), no. 1 (1969), 3-50)
Hewitt, E.: ‘Rings of real-valued continuous functions, I’, Trans. Amer. Math. Soc. 64 (1948), 45–99.
Engelking, R.: Outline of general topology, North-Holland, 1968.
Arkhangel’skiĭ, A.V. and Ponomarev, V.I.: Fundamentals of general topology: problems and exercises, Reidel, 1984 (translated from the Russian).
Heyting, A.: ‘Die formalen Regeln der intuitionistischen Logik’, Sitzungsber. Deutsch. Akad Wiss. Phys.-Math. Kl. 16, no. 1 (1930), 42–56; 57-71.
Heyting, A.: ‘Die formalen Regeln der intuitionistischen Mathematik’, Sitzungsber. Deutsch. Akad Wiss. Phys.-Math. Kl. 16, no. 10–12 (1930), 158–169.
Kleene, S.C.: Introduction to metamathematics, North-Holland, 1951.
Curry, H.B.: Foundations of mathematical logic, McGraw-Hill, 1963.
Fitting, M.C.: Intuitionistic logic, model theory and forcing, North-Holland, 1969.
Kripke, S.:’ semantic analysis of intuitionistic logic, I’, in J.N. Crossley and M.A.E. Dummett (eds.): Formal systems and recursive functions, North-Holland, 1965, pp. 92-130.
Beth, E.W.: ‘Semantic construction of intuitionistic logic’, Med. Kon. Nederl. Akad. Weten. Afd. Letterkunde 19 (1956), 357–388.
Fourman, M.P. and Hyland, J.M.E.: ‘Sheaf models for analysis’, in M.P. Fourman, C.J. Mutvey and D.S. Scott (eds.): Applications of Sheaves, Lecture notes in math., Vol. 753, Springer, 1979, pp. 280–301.
Fourman, M.P. and Scott, D.S.: ‘Sheaves and logic’, in M.P. Fourman, C.J. Mulvey and D.S. Scott (eds.): Applications of Sheaves, Lecture notes in math., Vol. 753, Springer, 1979, pp. 302–401.
Dummett, M.: Elements of intuitionism, Oxford Univ. Press, 1977.
Troelstra, A. and Dalen, D. van: Constructivism in mathematics, 1, North-Holland, 1988.
Beeson, M.J.: Foundations of constructive mathematics, Springer, 1985.
Kleene, S.C. and Vesley, R.E.: The foundations of intuitionistic mathematics, North-Holland, 1965.
Addison, J.: Mathematical logic and its applications, Moscow, 1965 (in Russian; translated from the English).
Hinman, P.: Recursion-theoretic hierarchies, Springer, 1978.
Kuratowski, K. and Mostowski, A.: Set theory, North-Holland, 1968.
Problems in mathematical logic, Moscow, 1970 (in Russian). Collection of translations.
Rogers, jr., H.: Theory of recursive functions and effective computability, McGraw-Hill, 1967.
Barwise, J. (ed.): Handbook of mathematical logic, North-Holland, 1977 (especially the article of D.A. Martin on Descriptive set theory).
Moschovakis, Y.: Descriptive set theory, North-Holland, 1980.
Sommervelle, D.M.Y.: An introduction to the geometry of n dimensions, Methuen, 1929.
Coxbter, H.S.M.: Introduction to geometry, Wiley, 1969,185-186; 396-404.
Dixmier, J.: Les algèbres d’opérateurs dans l’espace hilbertien: algèbres de von Neumann, Gauthier-Villars, 1957.
Takesaki, M.: Tomita’s theory of modular Hilbert algebras and its applications, Springer, 1970.
Mill, J. van: Topology; with an introduction to infinitedimensional spaces, North-Holland, 1988.
‘Hilbert problems’, Bull. Amer. Math. Soc. 8 (1902), 437-479.
Browder, F. (ed.): Mathematical developments arising from Hilbert problems, Proc. Symp. Pure Math., 28, Amer. Math. Soc., 1976.
Hilbert, D.: Grundlagen der Geometrie, Springer, 1913.
‘Hilbert problems’, Bull Amer. Math. Soc. 8 (1902), 437-479.
Busemann, H.: The geometry of geodesics, Acad. Press, 1955.
Pogorelov, A.V.: Hilbert’s fourth problem, Winston & Wiley, 1974 (translated from the Russian).
Busemann, H. and Kelly, P.: Projective geometry and projective metrics, Acad. Press, 1953.
Berger, M.: Geometry, I, Springer, 1987 (translated from the French).
Weyl, H.: Singuläre Integralgleichungen mit besonderer Berücksichtigung des Fourierschen Integraltheorems, Göttingen, 1908. Thesis.
Schur, I.: ‘Bemerkungen zur Theorie der beschränkten Bilinearformen mit unendlich vielen Veränderlichen’, J. Reine Angew. Math. 140 (1911), 1–28.
Hardy, G.H., Ltttlewood, J.E. and Pólya, G.: Inequalities, Cambridge Univ. Press, 1934.
Bonsall, F.F.: ‘Inequalities with non-conjugate parameters’, Quart. J. Math. Oxford (2) 2 (1951), 135–150.
Levin, V.: ‘On the two-parameter extension and analogue of Hilbert’s inequality’, J. London Math. Soc. (1) 11 (1936), 119–124.
Bruijn, N.G. de and Wilf, H.S.: ‘On Hilbert’s inequality in n dimensions’, Bull Amer. Math. Soc. 68 (1962), 70–73.
Walker, P.L.: ‘A note on an inequality with non-conjugate parameters’, Proc. Edinburgh Math. Soc. 18 (1973), 293–294.
Beltrami, E.: Rend. R. Istor. Lombardo Sci. Let. 1, no. 2 (1868), 708–718.
Hilbert, D.: ‘Mathematische Probleme’, Nachr. Ges. Wiss. Göttingen (1900), 253-297.
‘Hilbert problems’, Bull Amer. Math. Soc. 8 (1902), 437-479.
Hilbert, D.: ‘Zur Variationsrechnung’, Math. Ann. 62 (1906), 351–370.
Akhiezer, N.I.: The calculus of variations, Blaisdell, 1962 (translated from the Russian).
Gel’fand, I.M. and Fomin, S.V.: Calculus of variations, Prentice-Hall, 1963 (translated from the Russian).
Carathéodory, G: Variationsrechnung und partielle Differentialgleichungen erster Ordnung, Teubner, 1956.
Young, L.: Lectures on the calculus of variations and optimal control theory, Saunders, Philadelphia, 1969.
Hilbert, D.: ‘Beweis für die Darstellbarkeit der ganzen Zahlen durch eine feste Anzahl n ter Potenzen (Waringsches Problem)’, Math. Ann. 67 (1909), 281–300.
Vinogradov, I.M.: The method of trigonometric sums in the theory of numbers, Interscience, 1954 (translated from the Russian).
Mardzhanishvili, K.K.: Izv. Akad. Nauk SSSR Ser. Mat. (1937), 609-631.
Moiseiwttsch, B.L.: Integral equations, Longman, 1977.
Hilbert, D.: Gesammelte Abhandlungen, 2, Springer, 1933.
Baldassarri, M.: Algebraic varieties, Springer, 1956.
Zariski, O. and Samuel, P.: Commutative algebra, 1, Springer, 1975.
Mumford, D.: Lectures on curves on an algebraic surface, Princeton Univ. Press, 1966.
Mumford, D.: Geometric invariant theory, Springer, 1965.
Grothendieck, A.: ‘Techniques de construction et théorèmes d’existence en géométrie algébrique, IV: Les schémas de Hillbert’, in Sem Bourbaki, Vol. 13, 1960–1961.
Hartshorns, R.: ‘Connectedness of the Hilbert scheme’, Publ Math. IHES 29 (1966), 5–48.
Dolgachev, I.V.: ‘Abstract algebraic geometry’, J. Soviet Math. 2, no. 3 (1974), 264–303. (Ltogi Nauk. i Tekhn. Algebra Topol. Geom 10 (1972), 47-112)
Dunford, N. and Schwartz, J.T.: Linear operators. Spectral theory, 2, Interscience, 1963.
Yosioa, K.: Functional analysis, Springer, 1980.
Stone, M.H.: Linear transformatons in Hilbert space and their applications to analysis, Amer. Math. Soc., 1932.
Riesz, F. and Szökefalvi-Nagy, B.: Functional analysis, F. Ungar, 1955 (translated from the French).
Dieudonné, JA.: Foundations of modern analysis, Acad. Press, 1961.
Kantorovich, L.V., et al.: Functional analysis in semi-ordered spaces, Moscow-Leningrad, 1950 (in Russian).
Weidmann, J.: ‘Carleman Operatoren’, Manuscripta Math. 2, no. 1 (1970), 1–38.
Moren, K.: Methods of Hilbert spaces, PWN, 1967 (translated from the Polish).
Berezanskiĭ, Yu.M.: Expansion in eigenfunctions of self adjoint operators, Amer. Math. Soc., 1968 (translated from the Russian)
Gohberg, I. and Goldberg, S.: Basic operator theory, Birkhäuser, 1977.
Akhiezer, N.I. and Glazman, I.M.: Theory of linear operators in Hilbert space, 1–2, Pitman, 1981 (translated from the Russian).
Dunford, N. and Schwartz, J.T.: Linear operators. Spectral theory, 2, Interscience, 1963.
Gel’fand, I.M. and Vilenkin, N.Ya.: Generalized functions, 4. Applications of harmonic analysis, Acad. Press, 1964 (translated from the Russian).
Akhiezer, N.I. and Glazman, I.M.: Theory of linear operators in Hilbert space, 1–2, Pitman, 1981 (translated from the Russian).
Reed, M. and Simon, B.: Methods of mathematical physics, 1. Functional analysis, Acad. Press, 1972.
Gohberg, I. and Goldberg, S.: Basic operator theory, Birkhäuser, 1977.
Akhiezer, N.I. and Glazman, I.M.: Theory of linear operators in Hilbert space, 1–2, Pitman, 1981 (translated from the Russian).
Gohberg, I. and Goldberg, S.: Basic operator theory, Birkhäuser, 1981.
Hilbert, D.: Grundzüge einer allgemeinen Theorie der linearen Integralgleichungen, Chelsea, reprint, 1953.
Riesz, M.: ‘Sur les fonctions conjugees’, Math. Z 27 (1927), 218–244.
Bary, N.K. [N.K. Bari]: A treatise on trigonometric series, Pergamon, 1964 (translated from the Russian).
Muskhelishvili, N.I.: Singular integral equations, Wolters-Noordhoff, 1972 (translated from the Russian).
Zygmund, A.: Trigonometric series, 1–2, Cambridge Univ. Press, 1988.
Moiseiwitsch, B.L.: Integral equations, Longman, 1977.
Hilbert, D.: Grundzüge einer allgemeinen Theorie der linearen Integralgleichungen, Chelsea, reprint, 1953.
Besicovitch, A.S.: Almost periodic functions, Cambridge Univ. Press, 1932.
Neumann, J. von: ‘Allgemeine Eigenwerttheorie Hermitischer Funktionaloperatoren’, Math. Ann. 102 (1929), 49–131.
Riesz, F.: ‘Ueber die linearen Transformationen des komplexen Hilbertschen Raumes’, Acta. Sci. Math. Szeged 5, no. 1 (1930), 23–54.
Dieudonné, J.A.: Foundations of modern analysis, Acad. Press, 1961.
Bourbaki, N.: Elements of mathematics. Topological vector spaces, Addison-Wesley, 1977 (translated from the French).
Akhiezer, N.I. and Glazman, I.M.: Theorie der linearen Operatoren im Hilbert Raum, Akad. Verlag, 1954 (translated from the Russian).
Carleman, T.: Sur les équations intégrales singulières à noyau réel et symmétrique, Uppsala, 1923.
Akhiezer, N.I.: The classical moment problem and some related questions in analysis, Oliver & Boyd, 1965 (translated from the Russian).
Dunford, N. and Schwartz, J.T.: Linear operators, 1–3, Interscience, 1958–1971.
Riesz, F. and Szökefalvi-Nagy, B.: Functional analysis, F. Ungar, 1955 (translated from the French).
Naĭmark, M.A: Lineare Differentialoperatoren, Akad. Verlag, 1960 (translated from the Russian).
Stone, M.H.: Linear transformations in Hilbert space and their applications to analysis, Amer. Math. Soc., 1932.
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).
Weidmann, J.: Linear operators in Hilbert spaces, Springer, 1980.
Singer, I.M.: Bases in Banach spaces, 1–2, Springer, 1970–1981.
Pontragin, L.S.: ‘Hermitian operators in spaces with an indefinite metric’, Izv. Akad. Nauk SSR Ser. Mat. 8 (1944), 243–280 (in Russian). English abstract.
Ginzburg, Yu.P. and Iokhvidov, I.S.: ‘Investigations in the geometry of infinite-dimensional spaces with a bilinear metric’, Russian Math. Surveys 17, no. 4 (1962), 1–51. (Uspekhi Mat. Nauk 17, no. 4 (1962), 3-56)
Azizov, T.Ya. and Iokhvidov, I.S.: ‘Linear operators in Hilbert spaces with a G-metric’, Russian Math. Surveys 26, no. 4 (1971), 45–97. (Uspekhi Mat. Nauk 26, no. 4 (1971), 43-92)
Naĭmark, M.A. and Ismagilov, R.S.: ‘Representations of groups and algebras in spaces with an indefinite metric’, Itogi Nauk. Mat. Anal (1969), 73-105 (in Russian).
Functional analysis, Moscow, 1964 (in Russian).
Bognar, J.: Indefinite inner product spaces, Springer, 1974.
Iohvidov, I.S. [I.S. Iokhvidov], Kreĭn, M.G. and Langer, H.: Introduction to the spectral theory of operators in spaces with an indefinite metric, Akademie-Verlag, 1982.
Gohberg, I., Lancaster, P. and Rodman, L.: Matrices and indefinite scalar products, Birkhäuser, 1983.
Iokhvidov, I.S. and Kreĭn, M.G.: ‘Spectral theory of operators in spaces with an indefinite metric I’, Transi. Amer. Math. Soc. (2) 13 (1960), 105–176. (Trudy Moskov. Mat Obshch. 5 (1956), 367-432)
Iokhvidov, I.S. and Kreĭn, M.G.: ‘Spectral theory of operators in spaces with an indefinite metric II’, Transi. Amer. Math. Soc. (2) 34 (1963), 283–374. (Trudy Moskov. Mat Obshch. 8 (1959), 413-496)
Daletskiĭ, Yu.L. and Kreĭn, M.G.: Stability of solutions of differential equations in Banach space, Amer. Math. Soc., 1974 (translated from the Russian).
Bracci, L., Morchio, G. and Strocchi, F.: ‘Wigner’s theorem on symmetries in indefinite metric spaces’, Comm. Math. Phys. 41 (1975), 289–299.
Istrăţescu, V.I.: Inner product spaces. Theory and applications, Reidel, 1987.
Milnor, J. and Husemoller, D.: Symmetric bilinear forms, Springer, 1973.
Azizov, T.Ya. and Iokhvidov, I.S.: ‘Linear operators in spaces with indefinite metric and their applications’, J. Soviet Math. 15 (1981), 438–490. (Itogi Nauk. i Tekhn. Mat. Anal. 17, no. 4 (1979), 113-205)
Hilbert, D.: Grundlagen der Geometrie, Teubner, reprint, 1968.
Efimov, N.V.: Höhere Geometrie, Deutsch. Verlag Wissenschaft., 1960 (translated from the Russian).
Forder, H.G.: Foundations of Euclidean geometry, Dover, reprint, 1958.
Aleksandrov, A.D.: ‘Foundations of geometry’, Siberian Math. J. 28 (1987), 523–539. (Sibirsk. Mat. Zh. 28 (1987), 9-28)
Hilbert, D.: ‘Ueber die Theorie der algebraischen Formen’, Math. Ann. 36 (1890), 473–534.
Hilbert, D.: ‘Ueber die Irreducibilität ganzer rationaler Funktionen mit ganzzahligen Koefficienten’, J. Reine Angew. Math. 110 (1892), 104–129.
Lang, S.: Diophantine geometry. Interscience, 1962.
Chebotarev, N.G.: Galois theory, Moscow-Leningrad, 1936, pp. 18-32 (in Russian).
Martinet, J.: ‘Un contre-exemple à une conjecture d’E. Noether (d’apres R. Swan)’, in Sem. Bourbaki, Vol. 22, 1969–1970.
Schinzel, A.: ‘Reducibility of polynomials’, in Actes du Congrès Internat. Mathématiciens Nice, 1970, Vol. 1, Gauthier-Villars, 1971, pp. 491–496.
Voskresenskiĭ, V.E.: ‘The geometry of linear algebraic groups’, Proc. Steklov Inst. Math. 132 (1975), 178–183. (Trudy Mat. Inst. Steklov. 132 (1973), 151-161)
Hilbert, D.: ‘Ueber die vollen Invariantensysteme’, Math. Ann. 42 (1893), 313–373.
Waerden, B.L. van der: Algebra, 2, Springer, 1971 (translated from the German).
Zariski, O. and Samuel, P.: Commutative algebra, 1, Springer, 1975.
Lang, S.: Algebra, Addison-Wesley, 1974.
Bourbaki, N.: Elements of mathematics. Commutative algebra, Addison-Wesley, 1972 (translated from the French).
Hilbert, D.: Grundlagen der Geometrie, Springer, 1913.
Hilbert, D.: ‘Ueber die Theorie der algebraischen Formen’, Math. Ann. 36 (1890), 473–534.
Serre, J.-P.:’ sur la dimension homologique des anneaux et des modules noethériens’, in S. Iyanaga and Y. Kawada (eds.): Proc Internat. Symp. Algebraic Number Theory, Sci. Council Tokyo, 1955, pp. 175-189.
Serre, J.-P.: Algèbre locale. Multiplicités, Springer, 1965.
Zariski, O. and Samuel, P.: Commutative algebra, 1, Springer, 1975.
Hilbert, D.: ‘Die Theorie der algebraischen Zahlkörper’, Jahresber. Deutsch. Math-Verein 4 (1897), 175–546.
Lang, S.: Algebra, Addison-Wesley, 1974.
Bourbaki, N.: Elements of mathematics. Algebra: Algebraic structures. Linear algebra, 1, Addison-Wesley, 1974, Chapt. 1; 2 (translated from the French).
Serre, J.-P: Cohomologie Galoisienne, Springer, 1964.
Artin, M., Grothendieck, A. and Verdier, J.L.: Théorie des topos et cohomologie étale des schemas 1963–1964. SGA 4, Lecture notes in math., 269; 270; 305, Springer, 1972–1973.
Akhiezer, N.I.: The calculus of variations, Blaisdell, 1962 (translated from the Russian).
Hilbert, D.: ‘Ueber die Theorie der algebraischen Formen’, Math. Ann. 36 (1890), 473–534.
Hilbert, D.: ‘Ueber die vollen Invariantensysteme’, Math. Ann. 42 (1893), 313–373.
Weyl, H.: The classical groups, their invariants and representations, Princeton Univ. Press, 1946.
Mumford, D.: Geometric invariant theory, Springer, 1965.
Nagata, M: ‘Invariants of a group in an affine ring’, J. Math. Kyoto Univ. 3 (1964), 369–377.
Hilbert, D.: Grundzüge einer allgemeinen Theorie der linearen Integralgleichungen, Chelsea, reprint, 1953.
Hilbert, D.: Grundzüge einer allgemeinen Theorie der linearen Integralgleichungen, Chelsea, reprint, 1953.
Riesz, M.: ‘Sur les fonctions conjugées’, Math. Z 27 (1927), 218–244.
Titchmarsh, E.C.: Introduction to the theory of Fourier integrals, Oxford Univ. Press, 1948.
Muskhelishvili, N.I.: Singular integral equations, Wolters-Noordhoff, 1972 (translated from the Russian).
Bary, N.K. [N.K. Bari]: A treatise on trigonometric series, Pergamon, 1964 (translated from the Russian).
Zygmund, A.: Trigonometric series, 1–2, Cambridge Univ. Press, 1988.
Hill, G.: Acta. Math. 8 (1886), 1.
Lyapunov, A.M.: Collected works, Vol. 2, Moscow, 1966, pp. 407–409 (in Russian).
Yakubovich, V.A. and Starzhinskiĭ, V.M.: Linear differential equations with periodic coefficients, Wiley, 1975 (translated from the Russian)
Eastham, M.S.P.: The spectral theory of periodic differential equations, Scottish Acad. Press, 1973.
McKean, H.P.: ‘Integrable systems and algebraic curves’, in M. Grmela and J.E. Marsden (eds.): Global Analysis, Lecture notes in math., Vol. 755, Springer, 1979, pp. 83–200.
Magnus, W. and Winkler, S.: Hill’s equation, Dover, reprint, 1979.
Freedman, D. and Diaconis, P.: ‘On the histogram as a density estimator: L 2 theory’, Z Wahrsch. Verw. Geb. 57 (1981), 453–476.
Hodge, W.V.D.: ‘The topological invariants of algebraic varieties’, in Proc. Internat. Congress Mathematicians Cambridge, 1950, Vol. 1, Amer. Math. Soc., 1952, pp. 182–192.
Conte, A. and Murre, J.P.: ‘The Hodge conjecture for four-folds admitting a covering by rational curves’, Math. Ann. 238 (1978), 79–88.
Conte, A. and Murre, J.P.: The Hodge conjecture for Fano complete intersections of dimension four’, in J. de Géométrie Algébrique d’Angers, juillet 1979, Sythoff & Noordhoff, 1980, pp. 129-141.
Ran, Z.: ‘Cycles on Fermat hypersurfaces’, Compositio Math. 42, no. 1 (1980–1981), 121–142.
Shioda, T.: ‘The Hodge conjecture and the Tate conjecture for Fermat varieties’, Proc. Japan. Acad Ser. A 55, no. 3 (1979), 111–114.
Tankeev, S.G.: ‘On algebraic cycles on simple 5-dimensional abelian varieties’, Math. USSR Izv. 19 (1982), 95–123. (Izv. Akad. Nauk SSSR Ser. Mat. 45, no. 4 (1981), 793-823)
Bloch, S.: ‘Semi-regularity and de Rham cohomology’, Invent Mat. 17 (1972), 51–66.
Steenbrink, J.H.M.:’ some remarks about the Hodge conjecture’, in E. Cattani, F. Guillán and A., Kaplan et al. (eds.): Hodge theory, Lecture notes in math., Vol. 1246, Springer, pp. 165-175.
Deligne, P., Milne, J.S. and Ogus, A., et al.: Hodge cycles, motives, and Shimura varieties, Lectures notes in math., 900, Springer, 1982.
Grothendieck, A.: ‘Hodge’s general conjecture is false for trivial reasons’, Topology 8 (1969), 299–303.
Beilinson, A.A.: ‘Notes on absolute Hodge cohomology’, Contemp. Math. 55, no. 1 (1986), 35–68.
Hodge, W.V.D.: The theory and applications of harmonic integrals, Cambridge Univ. Press, 1952.
Griffiths, P.A. and Harris, J.E.: Principles of algebraic geometry, 1, Wüey, 1978.
Deligne, P.: ‘Poids dans la cohomologie des variétés algébriques’, in R. James (ed.): Proc. Internat. Congress Mathematicians Vancouver, 1974, Vol. 1, Canad. Math. Congress, 1975, pp. 79–85.
Varchenko, A.N.: ‘Asymptotic integrals and Hodge structures’, J. Soviet Math. 27 (1984), 2760–2784. (Itogi Nauk. i Tekhn. Sovrem. Probl. Mat. 22 (1983), 130-166)
Griffiths, P.: ‘Periods of integrals on algebraic manifolds’, Amer. J. Math. 90 (1968), 568–625; 805-865.
Carlson, J., Cattani, E. and Kaplan, A.: ‘Mixed Hodge structures and compactifications of Siegel’s space’, in A. Beauville (ed.): Algebraic Geometry Angers, 1979, Sijthoff & Noordhoff, 1980, pp. 77-105.
Saavedra Rivano, N.: Catégories Tannakiennes, Lecture notes in math., 265, Springer, 1972.
Deligne, P.: ‘Théorie de Hodge II, III’, Publ. Math. IHES 40 (1971), 5–58.
Deligne, P.: ‘Théorie de Hodge IV’, Publ. Math. IHES 44 (1975), 5–77.
Hain, R.M.: ‘The de Rham homotopy theory of complex algebraic varieties I, II’, K-theory 1 (1987), 271–324; 481-497.
Steenbrink, J.H.M.: ‘Mixed Hodge structure on the vanishing cohomology’, in P. Holm (ed.): Real and complex singularities Oslo, 1976, Sijthoff & Noordhoff, 1977, pp. 525-563.
Navarro Aznar, V.: ‘Sur la théorie de Hodge—Deligne’, Invent. Math. 90 (1987), 11–76.
Cattani, E., Kaplan, A. and Schmid, W.: ‘L 2 and intersection cohomologies for a polarizable variation of Hodge structure’, Invent. Math. 87 (1987), 217–252.
Kashiwara, M. and Kawai, T.: ‘The Poincaré lemma for variations of Hodge structure’, Publ. RIMS Kyoto Univ. 23, no. 2 (1987), 345–407.
Saito, M.: ‘Modules de Hodge polarisables’, Preprint RIMS 553 (Oct. 1986).
Saito, M.: ‘Mixed Hodge modules’, Preprint RIMS 585 (July 1987).
Hodge, W.V.D.: ‘The topological invariants of algebraic varieties’, in Proc Internat. Congress Mathematicians Cambridge, 1950, Vol. 1, Amer Math. Soc., 1952, pp. 182–192.
Hodge, W.V.D.: The theory and application of harmonic integrals, Cambridge Univ. Press, 1962.
Griffiths, P. and Harris, J.: Principles of algebraic geometry, 1, Wiley, 1978.
Rham, G. de: Differentiable manifolds, Springer, 1984 (translated from the French).
Wells, jr., R.O.: Differential analysis on complex manifolds, Springer, 1980.
Griffiths, P.A. and Harris, J.E.: Principles of algebraic geometry, 1, Wiley, 1978.
Chaplygin, S.A.: On gas-like structures, Moscow-Leningrad, 1949 (in Russian).
Kochin, N.E., Kibel’, I.A. and Roze, N.V.: Theoretical hydrodynamics, Interscience, 1964 (translated from the Russian).
Curle, N. and Davies, H.J.: Modem fluid dynamics, 1–2, v. Nostrand Reinhold, 1971.
Holder, O.: ‘Ueber einen Mittelwerthsatz’, Nachr. Ges. Wiss. Göttingen (1889), 38-47.
Hardy, G.H., Ljttlewood, J.E. and Pólya, G.: Inequalities, Cambridge Univ. Press, 1934.
Beckenbach, E.F. and Bellman, R.: Inequalities, Springer, 1961.
Dunford, N. and Schwartz, J.T.: Linear operators. General theory, 1, Interscience, 1958.
Miranda, C.: Partial differential equations of elliptic type, Springer, 1970 (translated from the Italian).
Holder, O.: ‘Grenzwerthe von Reihen an der Konvergenzgrenze’, Math. Ann. 20 (1882), 535–549.
Hardy, G.H.: Divergent series, Oxford Univ. Press, 1949.
Hall, M., Jr.: The theory of groups, Macmillan, 1959.
Kurosh, A.G.: Theory of groups, 1, Chelsea, reprint, 1955 (translated from the Russian).
Vladmrov, V.S.: Methods of the theory of functions of several complex variables, M.I.T., 1966 (translated from the Russian).
Shabat, B.V.: Introduction to complex analysis, 1–2, Moscow, 1976 (in Russian).
Gunning, R.C. and Rossi, H.: Analytic functions of several complex variables, Prentice-Hall, 1965, Chapt. 1, Sect. G.
Chern, S.S.: Complex manifolds without potential theory, Springer, 1979.
Gunning, R.C. and Rossi, H.: Analytic functions of several complex variables, Prentice-Hall, 1965.
Reiffen, H.J.: ‘Das Lemma von Poincaré für holomorphe Differentialfonnen auf komplexen Räumen’, Math. Z. 101 (1967), 269–284.
Wells, jr., R.O.: Differential analysis on complex manifolds, Springer, 1980.
Gunning, R.C. and Rossi, H.: Analytic functions of several complex variables, Prentice-Hall, 1965.
Rudin, W.: Function theory in the unit ball of Cn, Springer, 1980, Chapt. 15.
Krantz, S.G.: Function theory of several complex variables, Wiley (Interscience), 1982.
Cartan, H.: ‘Quotients of complex analytic spaces’, in Contributions to function theory. Internat. Colloq. Function Theory, Bombay 1960, Tata Inst., 1960, pp. 1-15.
Ramis, J.P.: ‘Théorèmes de séperation et de finitude pour l’homologie et la cohomologie des espaces (p, q-convexes-concaves’, Ann. Scuola Norm. Sup. Pisa Ser. 3 27 (1973), 933–997.
Narasimhan, R.: ‘The Levi problem for complex spaces II’, Math. Ann. 146 (1962), 195–216.
Gunning, R.C. and Rossi, H.: Analytic functions of several complex variables, Prentice-Hall, 1965.
Grauert, H. and Remmert, R.: Theory of Stein spaces, Springer, 1979 (translated from the German).
Grauert, H. and Remmert, R.: ‘Komplexe Räume’, Math. Ann. 136 (1958), 245–318.
Suslov, G.K.: Theoretical mechanics, Moscow, 1944 (in Russian).
Rutherford, D.E: Classical mechanics, Oliver & Boyd, 1957.
Taylor, Th.T.: Mechanics: classical and quantum, Pergamon, 1976.
Landau, L.D. and Lifshitz, E.M.: A course of theoretical physics, 1. Mechanics, Pergamon, 1976 (translated from the Russian).
Hylleraas, E.A.: Mathematical and theoretical physics, 1, Wiley (Interscience), 1970.
Gromoll, D., Klingenberg, W. and Meyer, W.: Riemonnsche Geometrie im Grossen, Springer, 1968.
Bishop, R.L. and Crittenden, R.J.: Geometry of manifolds, Acad. Press, 1964.
Sternberg, S.: Lectures on differential geometry, Prentice-Hall, 1964.
Hilbert, D. and Cohn-Vossen, S.E.: Anschauliche Geometrie, Springer, 1932.
Boltyanskiĭ, V.G. and Efremovich, V.A.: ‘Outline of new ideas in topology’, Mat. Prosveshchenie 2 (1957), 3–34 (in Russian).
Poincaré, H.: Oeuvres, 2, Gauthier-Villars, 1952.
Aleksandrov, P.S.: ‘Topological duality theorems. Part 2. Non-dosed sets’, Trudy Mat Inst. Steklov. 54 (1959) (in Russian).
Harrold, O.G.: ‘A characterization of locally Euclidean spaces’, Trans. Amer. Math. Soc. 118 (1965), 1–16.
Pontryagin, L.S.: Topological groups, Princeton Univ. Press, 1958 (translated from the Russian).
‘Hilbert problems’, Bull. Amer. Math. Soc. 8 (1902), 437-479.
Whittaker, J.V.: ‘On isomorphic groups and homogeneous spaces’, Ann. of Math. (2) 78, no. 1 (1963), 74–91.
Anderson, R.D.: ‘The algebraic simplicity of certain groups of homeomorphisms’, Amer. J. Math. 80 (1958), 955–963.
Arens, R.F.: ‘Topologies for homeomorphism groups’, Amer. J. Math. 68, no. 4 (1946), 593–610.
Chernavskiĭ, A.V.: ‘Local contractibility of the group of homeomorphisms of a manifold’, Math. USSR-Sb. 8, no. 3 (1969), 287–333. (Mat. Sb. 79 (121), no. 3 (1969), 307-356)
Poincaré, H.: Les méthodes nouvelles de la mécanique céleste, 1–3, Gauthier-Villars, 1892–1899.
Takens, F.: ‘Homoclinic points in conservative systems’, Invent. Math. 18 (1972), 267–292.
Mel’nikov, V.K.: ‘On the existence of doubly asymptotic trajectories’, Soviet Math. Dokl 14, no. 4 (1973), 1171–1175. (Dokl Akad Nauk SSSR 211, no. 5 (1973), 1053-1056)
Nitecki, Z.: Differentiable dynamics. An introduction to the orbit structure of diffeomorphisms, M.I.T., 1971.
Takens, F.: ‘Homoclinic bifurcations’, in A.M. Gleason (ed.): Proc. Internat. Congress Mathematicians Berkeley, 1986, Amer. Math. Soc., 1987, pp. 1229-1236.
Guckenheimer, J. and Holmes, P.: Nonlinear oscillations, dynamical systems and bifurcations of vector fields, Springer, 1983.
Helgason, S.: Differential geometry, Lie groups, and symmetric spaces, Acad. Press, 1978.
Fuks, B.A.: Special chapters in the theory of analytic functions of several complex variables, Amer. Math. Soc., 1965 (translated from the Russian).
Cartan, E: ‘Domains bornés homogènes de l’espace de n variables complexes’, Abh. Math. Sem. Univ. Hamburg 11 (1935), 116–162.
Pyatetskiĭ-Shapiro, I.I.: Automorphic functions and the geometry of classical domains, Gordon & Breach, 1969 (translated from the Russian).
Vinberg, EB., Gindkin, S.G. and Pyatetskiĭ-Shapiro, I.I.: ‘On the classification and canonical realization of complex bounded homogeneous domains’, Trans. Moscow Math. Soc. 12 (1963), 404–437. (Trudy Moskov. Mat. Obshch. 12 (1963), 359-388)
Gindkin, S.G.: ‘Analysis in homogeneous domains’, Russian Math. Surveys 19, no. 4 (1964), 3–92. (Uspekhi Mat. Nauk 19, no. 4 (1964), 3-92)
Borel, A.: ‘Kählerian coset spaces of semisimple lie groups’, Proc. Nat. Acad Sci. USA 40 (1954), 1147–1151.
Vinberg, E.B. and Gindikin, S.G.: ‘Kählerian manifolds admitting a transitive solvable automorphism group’, Math. USSR-Sb. 3 (1967), 333–351. (Mat. Sb. 74, no. 3 (1967), 357-377)
Koszul, J.L.: ‘Sur la forme Hermitienne canonique des espaces homogènes complexes’, Canad J. Math. 7, no. 4 (1955), 562–576.
Lichnerowicz, A.: Espaces homogènes Kähleriens, CNRS, 1953, pp. 171-184.
Onishchk, A.L.: ‘Complex hulls of compact homogeneous spaces’, Soviet Math. Dokl. 1 (1960), 88–90. (Dokl. Akad Nauk SSSR 130 (1960), 726-729)
Tits, J.: ‘Espaces homogènes complexes compacts’, Comment. Mat. Heb. 37 (1962–1963), 111–120.
Fuks, B.A.: Special chapters in the theory of analytic functions of several complex variables, Amer. Math. Soc., 1965 (translated from the Russian).
Helgason, S.: Differential geometry, Lie groups, and symmetric spaces, Acad. Press, 1978.
Wang, H.-C.: ‘dosed manifolds with homogeneous complex structure’, Amer. J. Math. 76, no. 1 (1954), 1–32.
Borel, A. and Remmert, R.: ‘Ueber kompakte homogene Kählersche Mannigfaltigkeiten’, Math. Ann. 145, no. 5 (1962), 429–439.
Kaup, W.: ‘Reelle Transformationsgruppen und invariante Metriken auf komplexe Räume’, Invent. Math. 3, no. 1 (1967), 43–70.
Dorfmeister, J. and Nakajima, K.: ‘The fundamental conjecture for homogeneous Kähler manifolds’, Acta Math. 161, no. 1–2 (1988), 23–70.
Koecher, M.: ‘Die Geodätischen von Positivitätsbereichen’, Math. Ann. 135, no. 3 (1958), 192–202.
Vinberg, EB.: ‘Homogeneous cones’, Soviet Math. Dokl. 1 (1960), 787–790. (Dokl. Akad Nauk SSSR 133, no. 1 (1960), 9-12)
Vinberg, E.B.: ‘The theory of convex homogeneous cones’, Trans. Amer. Math. Soc. 12 (1963), 340–403. (Trudy Moskov. Mat. Obshch. 12 (1963), 303-358)
Vinberg, E.B.: ‘The structure of the structure group of automorphisms of a homogeneous convex cone’, Trans. Amer. Math. Soc. 13 (1965), 63–93. (Trudy Moskov. Mat. Obshch. 13 (1965), 56-83)
Ash, A., et al.: Smooth compactification of locally symmetric varieties, Math. Sci. Press, 1975.
Helwig, K.-H.: ‘Zur Koecherschen Reduktionstheorie in Positivitätsbereichen I–III’, Mat. Z. 91 (1966), 152–168; 169-178; 355-362.
Ash, A.: ‘On entactic forms’, Canad J. Math. 29, no. 5 (1977), 1040–1054.
Rothaus, O.S.: ‘The construction of homogeneous convex cones’, Ann. of Math. 83 (1966), 358–376.
Rothaus, O.S.: ‘Correction to: The construction of homogeneous convex cones’, Ann. of Math. 87 (1968), 399.
Gindkin, S.G.: ‘Analysis in homogeneous domains’, Russian Math. Surveys 19, no. 4 (1964), 1–89. (Uspekhi Mat. Nauk 19, no. 4 (1964), 3-92)
Vainberg, B.R. and Gindkin, S.G.: ‘On the strong Huygens principle for a class of differential operators with constant coefficients’, Trans. Amer. Math. Soc. 16 (1967), 163–196. (Trudy Moskov. Mat. Obshch. 16 (1967), 151-180)
Faraut, J. and Korányi, A.: ‘Fonctions hypergéométriques associées aux cônes symétriques’, C.R. Acad. Sci. Paris 307 (1988), 555–558.
Hodge, W.V.D. and Pedoe, D.: Methods of algebraic geometry, 1–3, Cambridge Univ. Press, 1947–1954.
Lyusternik, L.A. and Sobolev, V.I.: Elements of functional analysis, Hindustan Publ. Comp., 1974 (translated from the Russian).
Cartan, H.: Calcul différentiel, Hennann, 1967.
Cartan, H.: Differential forms, Kershaw, 1983 (translated from the French).
Auslander, L., Green, L. and Hahn, F.: Flows on homogeneous spaces, Princeton Univ. Press, 1963.
Vilenkin, N.Ya.: Special functions and the theory of group representations, Amer. Math. Soc., 1968 (translated from the Russian).
Grenander, U.: Probabilities on algebraic structures, Wiley, 1963.
Zhelobenko, D.P.: Harmonic analysis of functions on semi-simple complex Lie groups, Moscow, 1974 (in Russian).
Cartan, E.: ‘Groupes de Lie’, in Oeuvres complétes. Partie I, Vol. 1–2, Gauthier-Villars, 1952.
Cartan, E.: La théorie des groupes finis et continus et la géométrie différentielle traitées par la méthode du repère mobile, Gauthier-Villars, 1951.
Kirillov, A.A.: Elements of the theory of representations, Springer, 1976 (translated from the Russian).
Helgason, S.: Differential geometry, Lie groups, and symmetric spaces, Acad. Press, 1978.
Hannan, E.J.: Group representations and applied probability, Methuen, 1965.
Borel, A.: ‘Sur la cohomologie des espaces fibrés principaux et des espaces homogènes de groupes de Lie compacts’, Ann. of Math. 57 (1953), 115–207.
Gorbatsevich, V.V.: ‘Compact homogeneous manifolds of small dimension’, in Geometric methods in problems of algebra and analysis, Yaroslavl’, 1980, pp. 37-60 (in Russian).
Onishchk, L.: ‘Transitive compact transformation groups’, Transi Amer. Math. Soc. (2) 55 (1966), 153–194. (Mat. Sb. 60, no. 4 (1963), 447-485)
Onishchk, A.L.: ‘On Lie groups, transitive on compact manifolds, III’, Math. USSR Sb. 4 (1968), 233–240. (Mat. Sb. 75 (1968), 255-263)
Itogi Nauk. Algebra Topol. 1963 (1964).
Alekseevskiĭ, D.V.: ‘Lie groups and homogeneous spaces’, J. Soviet Math. 11 (1974), 483–539. (Itogi Nauk. Algebra Topol. Geom. 11 (1974), 38-124)
Helgason, S.: Groups and geometric analysis, Acad. Press, 1984.
Jensen, G.: Higher order contact of submanifolds of homogeneous spaces, Springer, 1977.
Kobayashi, S. and Nomizu, K.: Foundations of differential geometry, 2, Interscience, 1969.
Wolf, JA.: Spaces of constant curvature, Publish or Perish, 1974.
Vinberg, E.B. and Onishchk, A.L.: ‘Fundamentals of the theory of Lie groups’, in Fundamental Directions, Vol. 20. Lie groups and Lie algebras 1, VINITI, 1988, pp. 5–101 (in Russian).
Gorbatsevich, V.V. and Onishchk, A.L.: ‘Lie groups of transformations’, in Fundamental Directions, Vol. 20. Lie groups and Lie algebras 1, VINITI, 1988, pp. 103–240 (in Russian).
Kirllov, A.A.: ‘Introduction to representation theory and noncommutative harmonics’, in Fundamental Directions, Vol. 22. Noncommutative harmonic analysis 1, VINITI, 1988, pp. 5–162 (in Russian).
Nerettn, Yu.A.: ‘Representations of the Virasoro algebra and of affine algebras’, in Fundamental Directions, Vol. 22. Noncommutative harmonic analysis 1, VINITI, 1988, pp. 163–224 (in Russian).
Borel, A.: Linear algebraic groups, Benjamin, 1969.
Serre, J.-P.: Cohomologie Galoisienne, Springer, 1964.
Humphreys, J.E: Linear algebraic groups, Springer, 1975.
Sukhanov, A.A.: ‘A description of observable subgroups of linear algebraic groups’, Math. USSR-Sb. 68 (Forthcoming). (Mat. Sb. 137, no. 1 (1988), 90-102)
Chow, W.: ‘On the protective embedding of homogeneous varieties’, in Algebraic topology; symposium in honour of S. Lefschetz, Princeton Univ. Press, 1957, pp. 122-128.
Hochschild, G.P.: Basic theory of algebraic groups and Lie algebras, Springer, 1981.
Cartan, H. and Eilenberg, S.: Homological algebra, Princeton Univ. Press, 1956.
MacLane, S.: Homology, Springer, 1963.
Bass, H.: Algebraic K-theory, Benjamin, 1968.
Grothendieck, A.: ‘Sur quelques points d’algèbre homologique’ Tohoku Math. J. 9 (1957), 119–221.
Eilenberg, S. and Steenrod, N.E.: Foundations of algebraic topology, Princeton Univ. Press, 1952.
Itogi Nauk. Ser. Mat., Algebra 1964 (1966), 203-236.
Steenrood, N.E. (ed.): Reviews of papers in algebraic and differential topology, topological and homological algebra, 2, Amer. Math. Soc., 1968, pp. 1174–1364.
Hilton, P.J. and Stammbach, U.: A course in homological algebra, Springer, 1971.
Cartan, H. and Eilenberg, S.: Homological algebra, Princeton Univ. Press, 1956.
Lambek, J.: Lectures on rings and modules, Blaisdell, 1966.
Skornyakov, L.A.: ‘Homological classification of rings’, Mat. Vesnik 4, no. 4 (1967), 415–434 (in Russian).
Eklof, P. and Sabbagh, G.: ‘Model-completions and modules’, Ann. Math. Logic 2, no. 3 (1971), 251–295.
MacLane, S.: Homology, Springer, 1963.
Aleksandrov, P.S.: An introduction to homological dimension theory and general combinatorial topology, Moscow, 1975 (in Russian).
Cartan, H. and Eilenberg, S.: Homological algebra, Princeton Univ. Press, 1956.
Osofsky, B.L.: Homoiogical dimensions of modules, Amer. Math. Soc., 1973.
Năstăsescu, C. and Oystaeyen, F. van: Dimensions of rings, Reidel, 1988.
Hurewicz, W. and Wallman, H.: Dimension theory, Princeton Univ. Press, 1948.
Kuz’minov, V.I.: ‘Homological dimension theory’, Russian Math. Surveys 23, no. 5 (1968), 1–45. (Uspekhi Mat. Nauk 23, no. 5 (1968), 3-49)
Dranishnikov, A.N.: ‘On a problem of P.S. Aleksandrov’, Mat Sb. 135 (1988), 551–557 (in Russian).
Nagata, J.: Modem dimension theory, Noordhoff, 1965.
Hartshorne, R.: Foundations of projective geometry, Benjamin
Busemann, H. and Kelly, P.: Projective geometry and projective metrics, Acad. Press, 1953.
Coxeter, H.S.M.: Projective geometry, Blaisdell, 1964.
Grothendieck, A.: ‘Sur quelques points d’algèbre homologique’ Tohoku Math. J. 9, (1957), 119–221
Steenrod, N.E. and Eilenberg, S.: Foundations of algebraic topology, Princeton Univ. Press, 1966.
Hilton, P.J. and Wylie, S.: Homology theory. An introduction to algebraic topology, Cambridge Univ. Press, 1960.
Aleksandrov, P.S.: ‘Fundamental duality theorems for non-closed sets of an n — dimensional space’, Mat. Sb. 21(63), no. 2 (1947), 161–232 (in Russian).
Aleksandrov, P.S.: ‘On homological positioning properties of complexes and closed sets’, Izv. Akad Nauk SSSR Ser. Mat. 6 (1942), 227–282 (in Russian).
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966.
Godement, R.: Topologie algébrique et théorie des faisceaux, Hermann, 1958.
Bredon, G.: Sheaf theory, McGraw-Hill, 1967.
Teleman, G: Grundzüge der Topologie und differenzierbare Mannigfaltigkeiten, Deutsch. Verlag Wissenschaft., 1968 (translated from the Rumanian).
Switzer, R.: Algebraic topology-homotopy and homology, Springer, 1975.
Čech, E.: ‘Théorie générale des variétés et de leurs théorèmes de dualité’, Ann. of Math. (2) 34 (1933), 621–730.
Lefschetz, S.: ‘On generalized manifolds’, Amer. J. Math. 55 (1933), 469–504.
Aleksandroff, P.S. [P.S. Aleksandrov]: ‘On local properties of dosed sets’, Ann. of Math. (2) 36, no. 1 (1935), 1–35.
Aleksandroff, P.S. [P.S. Aleksandrov] and Pontrjagin, L.S. [L.S. Pontryagin]: ‘Les variétés à n dimensions généralisés’, C.R. Acad Sci. Paris Sir. I Math. 202 (1936), 1327–1329.
Smith, P.A.: ‘Transformations of finite period’, Ann. of Math. (2) 40, no. 3 (1939), 690–711.
Begle, E.G.: ‘Locally connected spaces and generalized manifolds’, Amer. J. Math. 64 (1942), 553–574.
Wilder, R.: Topology of manifolds, Amer. Math. Soc., 1949.
Borel, A.: ‘The Poincaré duality in generalized manifolds’, Michigan Math. J. 4 (1957), 227–239.
Yang, C.T.: ‘Transformation groups on a homological manifold’, Trans. Amer. Math. Soc 87 (1958), 261–283.
Conner, P.E. and Floyd, E.E.: ‘A characterization of generalized manifolds’, Michigan Math. J. 6 (1959), 33–43.
Raymond, F.: ‘Separation and union theorems for generalized manifolds with boundary’, Michigan Math. J. 7 (1960), 7–21.
Bredon, G.E.: ‘Orientation in generalized manifolds and application to the theory of transformation groups’, Michigan Math. J. 7 (1960), 35–64.
Borel, A.: ‘Homology and duality in generalized manifolds’, in A. Borel (ed.): Seminar on transformation groups, Princeton Univ. Press, 1960, pp. 23-33.
Bredon, G.E.: ‘Wilder manifolds are locally orientable’, Proc. Nat. Acad. Sci. USA 63, no. 4 (1969), 1079–1081.
MacLane, S.: Homology, Springer, 1963.
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966.
Kirillov, A.A.: ‘Dynamical systems, factors and representations of groups’, Russian Math. Surveys 22, no. 5 (1967), 63–75. (Uspekhi Mat. Nauk 22, no. 5 (1967), 67-80)
Stepin, A.M.: ‘Cohomologies of automorphism groups of a Lebesgue space’, Funct. Anal. Appl. 5 (1971), 167–168. (Funktsional. Anal. i Prilozhen. 5, no. 2 (1971), 91-92)
Golodets, V.Ya. and Sinelshchkov, S.D.: ‘Locally compact groups appearing as ranges of cocycles of ergodic Z-actions’, Ergodic Theory and Dynamical Systems 5 (1985), 47–57.
Ellis, R.: ‘Cohomology of groups and almost periodic extensions of minimal sets’, Ergodic Theory and Dynamical Systems 1 (1981), 49–64.
Petersen, K.E.: ‘Extension of minimal transformation groups’, Math. Systems Theory 5 (1971), 365–375.
Aleksandrov, P.S.: Combinatorial topology, Graylock, Rochester, 1956 (translated from the Russian).
Pontryagin, L.S.: Grundzüge der kombinatorischen Topologie, Deutsch. Verlag Wissenschaft, 1956 (translated from the Russian).
Seifert, H. and Threlfall, W.: A textbook of topology, Acad. Press, 1980 (translated from the German).
Hilton, P.J. and Wylie, S.: Homology theory. An introduction to algebraic topology, Cambridge Univ. Press, 1960.
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966.
Cartan, H. and Eilenberg, S.: Homological algebra, Princeton Univ. Press, 1956.
MacLane, S.: Homology, Springer, 1963.
Cartan, H. and Eilenberg, S.: Homological algebra, Princeton Univ. Press, 1956.
Aleksandrov, P.S.: Combinatorial topology, Graylock, 1956 (translated from the Russian).
Lefschetz, S.: Algebraic topology, Amer. Math. Soc., 1942.
Eilenberg, S. and Steenrod, N.E: Foundations of algebraic topology, Princeton Univ. Press, 1952.
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966.
Hu, S.-T.: Homology theory, Holden-Day, 1966.
Hu, S.-T.: Cohomology theory, Markham, Chicago, 1968.
Dold, A.: Lectures on algebraic topology, Springer, 1980.
Switzer, R.M.: Algebraic topology — homotopy and homology, Springer, 1975.
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966.
Lefschetz, S.: Topology, Chelsea, reprint, 1956.
Maunder, C.R.F.: Algebraic topology, v. Nostrand Reinhold, 1970.
Vaisman, I: Cohomology and differential forms, M. Dekker, 1973.
Steenrod, N.E. and Eilenberg, S.: Foundations of algebraic topology, Princeton Univ. Press, 1966.
Aleksandrov, P.S.: ‘General duality theorems for non-closed sets in n-dimensional space’, Mat. Sb. 21(63), no. 2 (1947), 161–232 (in Russian).
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966.
Mal’tsev, A.I.: Algebraic systems, Springer, 1973 (translated from the Russian).
Chang, C.C. and Keisler, H.J.: Model theory, North-Holland, 1973.
Berger, M.: Geometry, Springer, 1987 (translated from the French).
Coxeter, H.S.M.: Introduction to geometry, Wiley, 1961.
Artin, E.: Geometric algebra, Interscience, 1957.
Whttehead, G.W.: Elements of homotopy theory, Springer, 1978.
Steenrod, N.E.: The topology of fibre bundles, Princeton Univ. Press, 1951.
Boltyanskiĭ, V.G.: The homotopy theory of continuous mappings and vector fields, Moscow, 1955 (in Russian).
Hu, S.-T.: Homotopy theory, Acad. Press, 1959.
Brown, E.H.: ‘Finite computability of Postnikov complexes’, Ann. of Math. (2) 65 (1957), 1–20.
Kan, D.: ‘A combinatorial definition of homotopy groups’, Ann. of Math. (2) 67 (1958), 282–313.
Stallings, J.: ‘A finitely presented group whose 3-dimensional integral homology is not finitely generated’, Amer. J. Math. 85 (1963), 541–543.
Eckmann, B. and Hilton, P.: ‘Groupes d’homotopie et dualité. Groupes absolus’, C.R. Acad Sci. 246 (1958), 2444–2447.
Eckmann, B. and Hilton, P.: ‘Groupes d’homotopie et dualité. Suites exactes’, C.R. Acad Sci. 246 (1958), 2555–2558.
Eckmann, B. and Hilton, P.: ‘Groupes d’homotopie et dualité. Coefficients’, CR Acad Sci. 246 (1958), 2991–2993.
Eckmann, B. and Hilton, P.: ‘Transgression homotopique et cohomologique’, C.R. Acad Sci. 247 (1958), 620–623.
Eckmann, B. and Hilton, P.: ‘Décomposition homologique d’une polyèdre simplement connexe’, C.R. Acad Sci. 248 (1959), 2054–2056.
Hurewicz, W.: ‘Beiträge zur Topologie der Deformationen I–II’, Proc. Ned. Akad. Weten. Ser. A 38 (1935), 112–119; 521-528.
Hurewicz, W.: ‘Beiträge zur Topologie der Deformationen III–IV’, Proc. Ned. Akad. Weten. Ser. A 39 (1936), 117–126; 215-224.
Čech, E.: ‘Höherdimensionale Homotopiegruppen’, in Verh. Intern. Mathematikerkongress Zürich, 1932, Orell Füssli, 1932, p. 203.
Eilenberg, S.: ‘On the relation between the fundamental group of a space and the higher homotopy groups’, Fund. Math. 32 (1939), 167–175.
Whttehead, G.W.: Elements of homotopy theory, Springer, 1978.
Gray, B.: Homotopy theory, Acad. Press, 1975.
Hilton, P.J.: An introduction to homotopy theory, Cambridge Univ. Press, 1953.
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1960.
Sullivan, D.: ‘Genetics of homotopy theory and the Adams conjecture’, Ann. of Math. 100 (1974), 1–79.
Quillen, D.G.: Homotopical algebra, Springer, 1967.
Eckmann, B.: ‘Homotopie et dualité’, in Coll. Topol. Algébrique Louvain, 1956, Masson, 1957, pp. 41-53.
Switzer, R.M.: Algebraic topology-homotopy and homology, Springer, 1975.
Ravenel, D.C.: Complex cobordism and stable homotopy groups of spheres, Acad. Press, 1986.
Postnikov, M.M.:’ studies on the homotopy theory of continuous mappings’, Trudy Mat. Inst. Steklov. 46 (1955) (in Russian). 1. Algebraic system theory; 2. The natural system and homotopy theory.
Brown, E.H.: ‘Finite computability of Postnikov complexes’, Ann. of Math. (2) 65 (1957), 1–20.
Mosher, R.E. and Tangora, M.C.: Cohomology operations and their applications in homotopy theory. Harper & Row, 1968, Chapt. 13.
Gray, B.: Homotopy theory, Acad. Press, 1975, 30; 157-167.
Spanier, E.H.: Algebraic topology, McGraw-Hill, 1966, 25; 437-444.
Whitehead, G.W.: Elements of homotopy theory, Springer, 1978, 23:415-455.
Adams, J.F.: Algebraic topology: a students guide, Cambridge Univ. Press, 1972.
Baues, H.J.: Obstruction theory, Springer, 1977.
Bott, R. and Tu, L.W.: Differential forms in algebraic topology, Springer, 1982.
Griffiths, Ph.A. and Morgan, J.W.: Rational homotopy theory and differential forms, Birkhäuser, 1981.
Sullivan, D.: ‘Infinitesimal calculations in topology’, Publ. Math. IHES 47 (1977), 269–331.
Artin, M.: ‘The étale topology of schemes’, in Proc. Internat. Congress Mathematicians Moscow, 1966, Kraus, reprint, 1979, pp. 44-56.
‘Théorie des toposes et cohomologie étale des schémas’, in A. Grothendieck, J.L. Verdier and E Artin (eds.): Sem. Geom. Alg, Vol. 1–3, Springer, 1972.
Artin, M. and Mazur, B.: Etale homotopy, Springer, 1969.
Sullivan, D.: Geometric topology part I. Localization, periodicity, and Galois symmetry, M.I.T., 1971.
Grothendieck, A. (ed.): ‘Revètement étales et groupes fonda-mental’, in SGA 1, Lecture notes in math., Vol. 224, Springer, 1971.
Sulivan, D.: ‘Genetics of homotopy theory and the Adams conjecture’, Ann. of Math. 100 (1974), 1–79.
Landau, L.D. and Lifshitz, E.M.: Theory of elasticity, Pergamon, 1959 (translated from the Russian).
Sokolnikoff, V.V. [V.V. SOKOLNIKOV]: Mathematical theory of elasticity, McGraw-Hill, 1956 (translated from the Russian).
Timoshenko, S.P. and Goodier, J.N.: Theory of elasticity, McGraw-Hill, 1970.
Hopf, H.: ‘Ueber die Topologie der Gruppenmannigfaltigkeiten und ihrer Verallgemeinerungen’, Ann. of Math. (2) 42 (1941), 22–52.
Milnor, J.W. and Moore, J.C.: ‘On the structure of Hopf algebras’, Ann. of Math. (2) 81, no. 2 (1965), 211–264.
Borel, A.: Linear algebraic groups, Benjamin, 1969.
Borel, A.: ‘Sur la cohomologie des espaces fibrés principaux et des espaces homogènes de groupes de lie compacts’, Ann. of Math. 57 (1953), 115–207.
MacLane, S.: H ontology, Springer, 1963.
Abe, E: Hopf algebras, Cambridge Univ. Press, 1977.
Hazewinkel, M: Formal groups and applications, Acad. Press, 1978.
Drtnfel’d, V.G.: ‘Quantum groups’, in Proc. Internat. Congress Mathematicians Berkeley, 1986, Amer. Math. Soc., 1987, pp. 798-820.
Faddeev, L.D.: Integrable models in (1+1)-dimensional quantum field theory (Les Houches, 1982), Elsevier, 1984.
Hopf, H.: ‘Ueber die Abbildungen von Sphären niedriger Dimension’, Fund Math. 25 (1935), 427–440.
Husemoller, D.: Fibre bundles, McGraw-Hill, 1966.
Magnus, W., Karrass, A. and Solitar, B.: Combinatorial group theory: presentations in terms of generators and relations, Wiley (Interscience), 1966.
Hopf, H.: ‘Ueber die Abbildungen der dreidimensionalen Sphäre auf die Kugelfläche’, Math. Ann. 104 (1931), 639–665.
Hopf, H.: ‘Ueber die Abbildungen von Sphären niedriger Dimension’, Fund. Math. 25 (1935), 427–440.
Serre, J.-P.: ‘Groupes d’homotopie et classes de groupes abéliens’, Ann. of Math. 58 (1953), 258–294.
Whttehead, J.H.C.: ‘An expression of the Hopf invariant as an integral’, Proc. Nat. Acad Sci. USA 33 (1937), 117–123.
Whttehead, J.H.C.: ‘A generation of the Hopf invariant’, Ann. of Math. (2) 51 (1950), 192–237.
Hilton, P.: ‘Suspension theorem and generalized Hopf invariant’, Proc London. Math. Soc. (3) 1, no. 3 (1951), 462–493.
Steenrod, N.: ‘Cohomologies invariants of mappings’, Ann. of Math. (2) 50 (1949), 954–988.
Adams, J.: ‘On the groups J(X)’ Topology 5 (1966), 21–71.
Dold, A.: Halbexakte Homotopiefunktoren, Springer, 1966.
Husemoller, D.: Fibre bundles, McGraw-Hill, 1966.
Stong, R.E.: Notes on cobordism theory, Princeton Univ. Press, 1968.
Novikov, S.P.: ‘The methods of algebraic topology from the view point of cobordism theories’, Math. USSR-Izv. 4, no. 1 (1967), 827–913. (Izv. AKad Nauk SSSR Ser. Mat. 31, no. 4 (1967), 855-951)
Adams, J.F.: ‘On the non-existence of elements of Hopf invariant one’, Ann. of Math. 72 (1960), 20–104.
Hopf, H. and Rinow, W.: ‘Ueber den Begriff der vollständigen differentialgeometrischen Flächen’, Comm. Math. Heb. 3 (1931), 209–225.
Rham, G. de: ‘Sur la réducibilité d’un espace de Riemann’, Comm. Math. Heb. 26 (1952), 328–344.
Gromoll, D., Klingenberg, W. and Meyer, W.: Riemannsche Geometrie im Grossen, Springer, 1968.
Cohn-Vossen, S.E.: Some problems of differential geometry in the large, Moscow, 1959 (in Russian).
Klingenberg, W.: Riemannian geometry, de Gruyter, 1982 (translated from the German).
Nomizu, K.: Lie groups and differential geometry, Math. Soc. Japan, 1956.
Bishop, R.L. and Crtttenden, R.J.: Geometry of manifolds, Acad. Press, 1964.
Lumiste, Ü.G.: ‘Connections in homogeneous bundles’, Transl. Amer. Math. Soc. (2) 92 (1970), 231–274. (Mat. Sb. 69 (111), no. 3 (1966), 434-469)
Horner, W.G.: Philos. Transact. Roy. Soc. London Ser. A 1 (1819), 308–335.
Ruffini, P.: Mem Coronata Soc. Ital. Sci 9 (1802), 44–526.
Hildebrand, F.B.: Introduction to numerical analysis, McGraw-Hill, 1974.
Cajori, F.: A history of mathematics, Chelsea, reprint, 1980.
Kagan, V.F.: Foundations of geometry, 1–2, Moscow-Leningrad, 1949–1956 (in Russian).
Norden, A.P.: Elementare Einführung in die Lobatschewskische Geometrie, Deutsch. Verlag Wissenschaft, 1958 (translated from the Russian).
Efimov, N.V.: Höhere Geometrie, Deutsch. Verlag Wissenschaft, 1960 (translated from the Russian).
Coxbter, H.S.M.: Introduction to geometry, Wiley, 1961.
Hopf, E.: ‘Statistik des geodätischen Linien in Manningfaltigkeiten negativer Krümmung’, Ber. Verh. Sächs. Akad Wiss. Leipzig 91 (1939), 261–304.
Parasyuk, O.S.: ‘Horocycle flows on surfaces of constant negative curvature’, Uspekhi Mat. Nauk. 8, no. 3 (1953), 125–126 (in Russian).
Gurevich, B.M.: ‘The entropy of horocycle flows’, Soviet Math. Dokl. 2 (1961), 124–126. (Dokl. Akad Nauk. SSSR 136, no. 4 (1961), 768-770)
Furstenberg, H.: ‘The unique ergodicity of the horocycle flow’, in A. Beck (ed.): Recent advances in topological dynamics, Lecture notes in math., Vol. 318, Springer, 1973, pp. 95–115.
Marcus, B.: ‘Unique ergodicity of the horocycle flow: variable negative curvature case’, Israel J. Math. 21, no. 2–3 (1975), 133–144.
Marcus, B.: ‘Ergodic properties of horocycle flows for surfaces of negative curvature’, Ann. of Math. 105, no. 1 (1977), 81–105.
Marcus, B.: ‘The horocycle flow is mixing of all degrees’, Invent. Math. 46, no. 3 (1978), 201–209.
Green, L.W.: ‘The generalized geodesic flow’, Duke Math. J. 41, no. 1 (1974), 115–126.
Green, L.W.: ‘Correction on: The generalized geodesic flow’, Duke. Math. J. 42 (1975), 381.
Bowen, R.: ‘Weak mixing and unique ergodicity on homogeneous spaces’, Israel J. Math 23, no. 3–4 (1976), 267–273.
Bowen, R. and Marcus, B.: ‘Unique ergodicity for horocycle foliations’, Israel J. Math. 26, no. 1 (1977), 43–67.
Ratner, M.: ‘Rigidity of horocycle flows’, Ann. of Math. 115, no. 3 (1982), 597–614.
Coxeter, H.S.M.: Introduction to geometry, Wiley, 1961.
Norden, A.P.: Elementare Einführung, in die Lobatschewskische Geometrie, Deutsch. Verlag Wissenschaft., 1958 (translated from the Russian).
Hotelling, H.: ‘The generalization of Student’s ratio’, Ann. Math. Stat. 2 (1931), 360–378.
Anderson, T.W.: An introduction to multivariate statistical analysis, Wiley, 1984.
Anderson, T.W.: An introduction to multivariate statistical analysis, Wiley, 1984.
Rao, C.R.: Linear statistical inference and its applications, Wiley, 1973.
Lehmann, E.L.: Testing statistical hypotheses, Wiley, 1986.
Zachs, S.: The theory of statistical inferences, Wiley, 1971.
Hurwitz, A.: ‘Ueber die Bedingungen, unter welchen eine Gleichung nur Wurzeln mit negativen reellen Teilen besitzt’, Math Ann. 46 (1895), 273–284.
Hurwitz, A.: ‘Ueber die Bedingungen, unter welchen eine Gleichung nur Würzein mit negativen reellen Teilen besitzt’, in Math Werke, Vol. 2, Birkhäuser, 1933, pp. 533–545.
Markushevich, A.I.: Theory of functions of a complex variable, 1, Chelsea, 1977 (translated from the Russian).
Huygens, C.: Tractise on light, Moscow-Leningrad, 1935 (in Russian; translated from the French).
Hadamard, J.: Lectures on Cauchy’s problem in linear partial differential equations, Dover, reprint, 1952.
Courant, R. and Hilbert, D.: Methods of mathematical physics. Partial differential equations, 2, Interscience, 1965 (translated from the German).
Ibragimov, N.Kh.: ‘Huygens’ principle’, in Some problems in mathematics and mechanics, Leningrad, 1970, pp. 159-170 (in Russian).
Hörmander, L.: ‘Fourier integral operators I’, Acta Math. 127 (1971), 79–183.
Duistermaat, J.J. and Hörmander, L.: ‘Fourier integral operators II’, Acta Math. 128 (1972), 183–269.
Garding, L.: ‘Sharp fronts of paired oscillatory integrals’, Publ. R.I.M.S. 12. Suppl. (1967/77), 53–68.
Garding, L.: ‘Sharp fronts of paired oscillatory integrals’, Publ. R.I.M.S. 13 (1977/78), 821.
Atiyah, M.F., Bott, R. and Garding, L.: ‘Lacunas for hyperbolic differential operators with constant coefficients I’, Acta Math. 124 (1980), 109–189.
Atiyah, M.F., Bott, R. and Garding, L.: ‘Lacunas for hyperbolic differential operators with constant coefficients II’, Acta Math. 131 (1973), 145–206.
Bogolyubov, N.N.: Selected works, 2, Kiev, 1970 (in Russian).
Uhlenbeck, G.E. and Ford, G.V.: Lectures in statistical mechanics, Amer. Math. Soc., 1963.
Chapman, S. and Cowling, T.G.: The mathematical theory of nonuniform gases, Cambridge Univ. Press, 1952.
Cercignani, C.: Mathematical methods in kinetic theory, Plenum, 1969.
Cercignani, C.: The Boltzmann equation and its applications, Springer, 1988.
Kochin, N.E., Kibel’, I.A. and Roze, N.V.: Theoretical hydrodynamics. Interscience, 1964 (translated from the Russian).
Sedov, L.I.: Planar problems of hydrodynamics and aerodynamics, Moscow, 1966 (in Russian).
Stoker, J.J.: Water waves, Interscience, 1957.
Ladyzhenskaya, O.A.: The mathematical theory of viscous incompressible flows, Gordon and Breach, 1969 (translated from the Russian).
Lavrent’ev, M.A. and Shabat, B.V.: Problems in hydrodynamics and their mathematical models, Moscow, 1973 (in Russian).
Landau, L.D. and Lifshttz, E.M.: Fluid mechanics, Addison Wesley, 1959 (translated from the Russian).
Pai, S.I.: Viscous flow theory, 1–2, v. Nostrand, 1956.
Schlichting, H.: Boundary layer theory, McGraw-Hill, 1955.
Birkhoff, G.: Hydrodynamics, Princeton Univ. Press, 1960.
Lamb, H.: Hydrodynamics, Cambridge Univ. Press, 1932.
Milne-Thompson, L.M.: Theoretical hydrodynamics, Macmillan, 1957.
Prandtl, L. and Tietjens, O.G.: Applied hydro-and aeromechanics, Dover, reprint, 1934.
Prandtl, L. and Tietjens, O.G.: Fundamentals of hydroand aeromechanics, Dover, reprint, 1934.
Goldstein, S. (ed.): Modern developments in fluid mechanics, 1–2, Dover, reprint, 1965.
Sokolov, A.A., Loskutov, Yu.M. and Ternov, I.M.: Quantum mechanics, Moscow, 1965 (in Russian).
Messiah, A.: Quantum mechanics, 1, North-Holland, 1961.
Flügge, S.: Practical quantum mechanics, Springer, 1974.
Chevalley, C.: Introduction to the theory of algebraic functions of one variable, Amer. Math. Soc., 1951.
Springer, G.: Introduction to Riemann surfaces, Addison-Wesley, 1957.
Shafarevich, I.R.: Basic algebraic geometry, Springer, 1977 (translated from the Russian).
Arbarello, E., Cornalba, M., Griffiths, P.A. and Harris, J.: Geometry of algebraic curves, 1, Springer, 1985.
Springer, G.: Introduction to Riemann surfaces, Addison-Wesley, 1957, Chapt. 10.
Nevanlinna, R.: Uniformisierung, Springer, 1953, Chapt.5.
Neumann, K.: Vorlesungen uber Riemanns Theorie der Abelschen Integrale, Leipzig, 1884
Jahnke, E., Emde, F. and Lösch, F.: Tafeln höheren Funktionen, Teubner, 1966.
Tables of circular and hyperbolic sines and cosines in radial angle measure, Moscow, 1968 (in Russian).
Tables of e x and e−x Moscow, 1955 (in Russian).
Segun, A. and Abramowitz, M.: Handbook of mathematical functions, Appl. Math. Sen, 55, Nat. Bur. Stand., 1970.
Dwight, H.B.: Tables of integrals and other mathematical data, Macmillan, 1963.
Goluzin, G.M.: Geometric theory of functions of a complex variable, Amer. Math. Soc., 1969 (translated from the Russian).
Stoĭlov, S.: The theory of functions of a complex variable, 1–2, Moscow, 1962 (in Russian; translated from the Rumanian).
Ahlfors, L.V.: Conformai invariants: topics in geometric function theory, McGraw-Hill, 1973.
Lang, S.: Introduction to complex hyperbolic spaces, Springer, 1987.
Krantz, S.G.: Function theory of several complex variables, Wiley (Interscience), 1982.
Ahlfors, L.V.: Conformai invariants: topics in geometric function theory, McGraw-Hill, 1973.
Berger, M.: Geometry, Springer, 1987 (translated from the French).
Hilbert, D. and Cohn-Vossen, S.: Geometry and the imagination, Chelsea, reprint, 1952 (translated from the German).
Hörmander, L.: The analysis of linear partial differential operators, II, Springer, 1983, Chapt. XII.
Hörmander, L.: The analysis of linear partial differential operators, III, Springer, 1985, Chapt. XXIII.
Petrovskiĭ, I.G.: ‘Ueber das Cauchysche Problem für Systeme von partiellen Differentialgleichungen’, Mat. Sb. (N.S.) 2(44) (1937), 815–870.
Mizohata, S.: The theory of partial differential equations, Cambridge Univ. Press, 1973.
Chaillou, J.: Hyperbolic differential polynomials, Reidel, 1979.
Chazarain, J.: ‘Opérateurs hyperboliques à characteristique de multiplicité constante’, Ann. Inst. Fourier 24 (1974), 173–202.
Garding, L.: ‘Linear hyperbolic equations with constant coefficients’, Acta Math. 85 (1951), 1–62.
Oleĭnk, O.A.: ‘On the Cauchy problem for weakly hyperbolic equations’, Comm. Pure Appl. Math. 23 (1970), 569–586.
Godunov, S.K. and Ryaben’kiĭ, V.S.: The theory of difference schemes, North-Holland, 1964.
Richtmyer, R.D. and Morton, K.: Difference methods for initial-value problems, Wiley (Interscience), 1967.
Rozhdestvenskiĭ, 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. and Gulin, A.V.: Stability of difference schemes, Moscow, 1973 (in Russian).
Yanenko, N.N. and Shokin, Yu.I.: ‘The first differential approximation to finite-difference schemes for hyperbolic systems of equations’, Siberian Math. J. 10, no. 5 (1969), 868–880. (Sibirsk. Mat. Zh. 10, no. 5 (1969), 1173-1187)
Serdyukova, S.I.: ‘A necessary and sufficient condition for the stability of a class of difference boundary-value problems’, Soviet Math. Dokl. 14, no. 1 (1973), 50–54. (Dokl. Akad. Nauk SSSR 208, no. 1 (1973), 52-55)
Forsythe, G.E. and Wasow, W.R.: Finite difference methods for partial differential equations, Wiley, 1960.
Garabedian, P.R.: Partial differential equations, Wiley, 1964.
Gladwell, I. and Watt, R. (eds.): A survey of numerical methods for partial differential equations, Clarendon Press, 1979.
Mitchell, A.R. and Griffiths, D.F.: The finite difference method in partial differential equations, Wiley, 1980.
Samarskiĭ, A.A.: Theorie der Differenzverfahren, Geest und Portig, 1984 (translated from the Russian).
Smith, G.D.: Numerical solution of partial differential equations, Oxford Univ. Press, 1977.
Yanenko, N.N.: The method of fractional steps; the solution of problems of mathematical physics in several variables, Springer, 1971 (translated from the Russian).
Vichnevetsky, R. and Bowles, J.B.: Fourier analysis of numerical approximations of hyperbolic equations, SIAM, 1982.
Harten, A.: ‘On a class of high resolution total-variationstable finite-difference schemes’, SIAM J. Numer. Anal. 21 (1984), 1–23.
Poincaré, H.: ‘Mémoire sur les courbes definiés par une équation différentielle’, J. de Math. 7 (1881), 375–422.
Poincaré, H.: ‘Mémoire sur les courbes definiés par une équation différentielle’, J. de Math. 8 (1882), 251–296.
Poincaré, H.: ‘Mémoire sur les courbes définiés par une équation différentielle’, J. de Math 1 (1885), 167–244.
Poincaré, H.: ‘Mémoire sur les courbes difiniés par une équation différentielle’, J. de Math. 2 (1886), 151–217.
Lyapunov, A.M.: Problème général de la stabilité du mouvement, Princeton Univ. Prèss, 1947 (translated from the Russian). Reprint: Krauss, 1950.
Coddington, E.A. and Levinson, N.: Theory of ordinary differential equations, McGraw-Hill, 1955.
Hartman, P.: Ordinary differential equations, Birkhäuser, 1982.
Irwin, M.C.: Smooth dynamical systems, Acad. Press, 1980.
Kushnirenko, A.G., Katok, A.B. and Alekseev, V.M.: ‘Three papers on dynamical systems’, Trans. Amer. Math. Soc. (2) 116 (1981), 1–169. (Nineth math. summer school (1972), 50-341)
Smale, S.: ‘Differentiate dynamical systems’, Bull Amer. Math. Soc. 73 (1967), 747–817.
Nitecki, Z.: Differentiable dynamics. An introduction to the orbit structure of diffeomorphisms, M.I.T., 1971.
Shub, M.:’ stabilité globale des systèmes dynamiques’, Astérisque 56 (1978). English abstract.
Newhouse, Sh.E.: ‘Lectures on dynamical systems’, in J. Guckenheimer, J. Moser and Sh.E. Newhouse (eds.): Dynamical systems, Birkhäuser, 1980, pp. 1-114.
Savelov, AA.: Plane curves, Moscow, 1960 (in Russian).
Coxeter, H.S.M.: Non-Euclidean geometry, Univ. Toronto Press, 1965, pp. 224-240.
Coxeter, H.S.M.: ‘Angles and arcs in the hyperbolic plane’, Math. Chronicle (New Zealand) 9 (1980), 17–33.
Berger, M.: Geometry, Springer, 1987 (translated from the French).
Hilbert, D. and Cohn-Vossen, S.: Geometry and the imagination, Chelsea, reprint, 1952 (translated from the German).
Robinson, D.J.S.: Finiteness conditions and generalized soluble groups, 1–2, Springer, 1972.
Fueter, R.: ‘Ueber die Funktionen theorie in einer hyperkomplexen Algebra’, Elemente der Math. 3, no. 5 (1948), 89–94.
Scheffers, G.: ‘Verallgemeinerung der Grundlagen der gewöhnlich complexen Funktionen’, Ber. Verh. Sächs. Akacd. Wiss. Leipzig Mat.-Phys. Kl. 45 (1893), 828–848.
Hausdorff, F.: ‘Zur Theorie der Systeme complexer Zahlen’, Ber. Verh. Sächs. Akad. Wiss. Leipzig Mat.-Phys. Kl. 52 (1900), 43–61.
Kristalinskiĭ, R.Kh.: ‘Tseudoregular quaternion functions’, Uchen. Zap. Smolensk. Ped Inst. 14 (1965), 91–95 (in Russian).
Kantor, I.L. and Solodovnikov, A.S.: Hyperkomplexe Zahlen, Teubner, 1978 (translated from the Russian).
Kaluzhnin, L.A.: Introduction to general algebra, Moscow, 1973 (in Russian).
Sato, M: ‘Theory of hyperfunctions’, Sûgaku 10 (1958), 1–27 (in Japanese).
Sato, M.: ‘Theory of hyperfunctions I, II’, J. Fac. Sci. Univ. Tokyo Sect. 1 8 (1959–1960), 139–193; 387-437.
Martineau, A.: ‘Les hyperfonctions de M. Sato’, in Sém. Bourbaki, 1960.
Harvey, R.: Hyperfunctions and linear partial differential equations, Stanford Univ., 1966. Thesis.
Komatsu, H.:’ sato’s hyperfunctions and linear partial differential equations with constant coefficients’, Seminar Notes Univ. of Tokyo 22 (1970) (in Japanese).
Schapira, P.: Théorie des hyperfonctions, Lecture notes in math., 126, Springer, 1970.
Morimoto, M: Introduction to Sato hyperfunctions, Kyôritsu, 1976 (in Japanese).
KashIwara, M, Kawai, T. and Kimura, T.: Foundation of algebraic analysis, Princeton Univ. Press, 1986 (translated from the Japanese).
Kaneko, A.: Introduction to hyperfunctions, Kluwer, 1988. (translated from the Japanese).
Liebberman, G.I. and Owen, D.B.: Tables of the hypergeometric probability distribution, Stanford Univ. Press, 1961.
Owen, D.B.: Handbook of statistical tables, Addison-Wesley, 1962.
Bol’shev, L.N. and Smirnov, N.V.: Tables of mathematical statistics, Libr. of mathematical tables, 46, Nauka, Moscow, 1983 (in Russian). Processed by L.S. Bark and E.S. Kedova.
Feller, W.: An introduction to probability theory and its applications, 1, Wiley, 1970.
Gauss, C.F.: ‘Disquisitiones generales circa seriem infinitam 1 +(αβ)/(l°γ)x +...’, Comm. Soc. Regia Sci. Göttingen Rec. 2 (1812).
Gauss, C.F.: ‘Disquisitiones generales circa seriem infinitam 1 +(αβ)/(l°γ)x +...’, in Werke, Vol. 3, K. Gesellschaft Wissensch. Göttingen, 1876.
Krazer, A. and Franz, W.: Transzendente Funktionen, Akademie-Verlag, 1960.
Bateman, H. and Erdélyi, A.: Higher transcendental functions, 1–3, McGraw-Hill, 1953–1955.
Kamke, E.: Differentialgleichungen: Lösungsmethoden und Lösungen, 1, Chelsea, reprint, 1971.
Golubev, V.V.: Vorlesungen über Differentialgleichungen im Komplexen, Deutsch. Verlag Wissenschaft, 1958 (translated from the Russian).
Appell, P. and Kampé de Fériet, M.J.: Fonctions hypergéométriques et hypersphériques: Polynômes d’Hermite, Gauthier-Villars, 1926.
Heckman, G.J. and Opdam, E.M.: ‘Root systems and hyper-geometric functions I’, Compositio Math. 64 (1987), 329–352.
Heckman, G.J.: ‘Root systems and hypergeometric functions II’, Compositio Math. 64 (1987), 353–373.
Lebedev, N.N.: Special functions and their applications, Prentice-Hall, 1965 (translated from the Russian).
Bateman, H. and Erdélyi, A.: Higher transcendental Junctions. The Gamma function. The hypergeometric function. Legendre functions, 1, McGraw-Hill, 1953.
Gradshtein, I.S. and Ryzhk, I.M.: Table of integrals, series and products, Acad. Press, 1980 (translated from the Russian).
Kummer, E.E.: ‘Ueber die hypergeometrische Reihe 1+αβ/γ°1x+...’, J. Reine Angew. Math. 15 (1836), 39–83; 127-172.
Segun, A. and Abramowitz, M: Handbook of mathematical functions, Appl. Math. Ser., 55, Nat. Bur. Stand., 1970.
Whittaker, E.T. and Watson, G.N.: A course of modern analysis, Cambridge Univ. Press, 1952.
Lebedev, A.L. and Fedorova, R.M.: Handbook on mathematical tables, Moscow, 1956 (in Russian).
Burunova, N.M.: Handbook of mathematical tables, Moscow, 1959 (in Russian). Supplement I.
Fletcher, A.A., Miller, J.C.P., Rosenhead, L. and Comrie, J.: An index of mathematical tables, 1–2, Oxford Univ. Press, 1962.
Gasper, G. and Rahman, M.: Basic hypergeometric series, Cambridge Univ. Press, 1989.
Koornwinder, T.H.: ‘Jacobi functions and analysis on non-compact semisimple Lie groups’, in R.A. Askey, T.H. Koornwinder and W. Schempp (eds.): Special functions: Group theoretical aspects and applications, Reidel, 1984, pp. 1-85.
Appell, P. and Kampé de Fériet, M.J.: Fonctions hypergéométriques et hypersphériques: polynômes d’Hermite, Gauthier-Villars, 1926.
Gasper, G. and Rahman, M.: Basic hypergeometric series, Cambrige Univ. Press, 1989.
Gross, K. and Richards, D.: ‘Special functions of matrix argument I’, Trans. Amer. Math. Soc. 301 (1987), 781–811.
Zykov, A.A.: ‘Hypergraphs’, Russian Math. Surveys 29, no. 6 (1974), 89–156. (Uspekhi Mat. Nauk 29, no. 6 (1974), 80-154)
Berge, C.: Graphs and hypergraphs, North-Holland, 1973 (translated from the French).
Cartan, H. and Eilenberg, S.: Homological algebra, Princeton Univ. Press, 1956.
Grothendieck, A.: ‘Sur quelques points d’algèbre homologique’, Tohoku Math. J. 9 (1957), 119–221
Kuratowski, K.: Topology, 2, Acad. Press, 1968.
Michael, E.: ‘Topologies on spaces of subsets’, Trans. Amer. Math. Soc. 71 (1951), 152–182.
Ponomarev, V.I.: ‘A new space of closed sets and manyvalued continuous maps of bicompacts’, Mat. Sb. 48(90), no. 2 (1959), 191–212 (in Russian).
Vietoris, L.: ‘Bereiche zweiter Ordnung’, Monatsh. Math. Physik 32 (1922), 258–280.
Frink, O.: ‘Topology in lattices’, Trans. Amer. Math. Soc. 51 (1942), 569–582.
Nadler, S.B.: Hyperspaces of sets, M. Dekker, 1978.
McAllister, B.L.: ‘HyperSpaces and multifunctions, the first half century’, Nieuw Arch. Wisk. (3) 26 (1978), 309–329.
Douwen, E.K. van: ‘The Pixley-Roy topology on spaces of subsets’, in G.M. Reed (ed.): Set-Theoretic Topology, Acad. Press, 1977, pp. 111-134.
Carlson, J. and Griffiths, P.: ‘Infinitesimal variations of Hodge structure and the global Torelli problem’, in A. Beauville (ed.): Algebraic geometry, Angers 1979, Sijthoff & Noordhoff, 1980, pp. 51-76.
Donagi, R.: ‘Generic Torelli for projective hypersurfaces’, Compos. Math. 50 (1983), 325–353.
Hartshorne, R.: Algebraic geometry, Springer, 1977.
Grauert, H. and Remmert, R.: Theory of Stein spaces, Springer, 1977 (translated from the German).
Vladimirov, V.S.: Methods of the theory of functions of several complex variables, M.I.T., 1966 (translated from the Russian).
Kaup, L. and Kaup, B.: Holomorphic functions of several variables, de Gruyter, 1983 (translated from the German).
Savelov, A.A.: Plane curves, Moscow, 1960 (in Russian).
Berger, M.: Geometry, 1, Springer, 1987, pp. 273-276 (translated from the French).
Fladt, K.: Analytische Geometrie spezieller ebener Kurven, Akad. Verlagsgesellschaft, 1962.
Müller, H.R.: Kinematik, de Gruyter, 1963.
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Saliĭ, V.N. et al. (1995). H. In: Hazewinkel, M. (eds) Encyclopaedia of Mathematics. Springer, Boston, MA. https://doi.org/10.1007/978-1-4899-3793-3_1
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