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References
Aleksandrov, P.S. and Urysohn, P.S.: ‘Memoire sur les espaces topologiques compacts’, Verh. Akad. Wetensch. Amsterdam 14 (1929).
Iliadis, S.D. and Fomin, S.V.: ‘The method of centred systems in the theory of topological spaces’,Russ. Math. Surveys 21, no$14 (1966), 37-62. (Uspekhi Mat. Nauk 21, no. 4 (1966), 47–76 )
Malykhin, V.I. and Ponomarev, V.I.: ‘General topology (set-theoretic trend)’,J. Soviet Math.7 (1977), 587–653. (Itogi Nauk. i Tekhn. Algebra Topol. Geom.13 (1975), 149–230 )
Porter, J.R. and Woods, R.G.:Extensions and absolutes of Hausdorff spaces, Springer, 1988.
Novikov, S.P.: ‘Homotopy-equivalent smooth manifolds I’,Izv. Akad. Nauk SSSR Ser. Mat.28, no. 2 (1964), 365–474 (in Russian).
Milnor, J.:Lectures on the h-cobordism theorem, Princeton Univ. Press, 1965.
Milnor, J.: ‘Whitehead torsion’,Bull. Amer. Math. Soc.72 (1966), 358–462.
Smale, S.: ‘On the structure of manifolds’,Amer. J. Math.84 (1962), 387–399.
Milnor, J.: ‘Sommes des varietés differentiates et structures différentiates des sphéres’,Bull. Soc. Math. France 87 (1959), 439–444.
Kervaire, M. and Milnor, J.: ‘Groups of homotopy spheres I’,Ann. of Math. (2)77 (1963), 504–537.
Mazur, B.: ‘Relative neighbourhoods and the theorems of Smale’,Ann. of Math.11 (1963), 232–249.
Siebenmann, L.: ‘Disruption of low-dimensional handlebody theory by Rohlin’s theorem’, inTopology of manifolds, Markham, 1969, pp. 57–76.
Kirby, R. and Siebenmann, L.: ‘On the triangulation of manifolds and the Hauptvermutung’,Bull. Amer. Math. Soc.75 (1969), 742–749.
Kervaire, M.: ‘Le theoreme de Barden-Mazur-Stallings’, in M. Kervaire, G. de Rham and S. Maumary (eds.):Torsion et type simple d’homotopie, Lecture notes in math., Vol. 48, Springer, 1967, pp. 83–95.
Thom, R.:Les classes caracteristiques de Pontryagin des varietes triangulées, Univ. Nac. Aut. Mexico amp; UNESCO, 1958, pp. 54–67.
Rourke, C.P. and Sanderson, B.J.:Introduction to piecewiselinear topology, Springer, 1972.
Smale, S.: ‘Generalized Poincare’s conjecture in dimensions greater than four’,Ann. of Math. (2) 74 (1961), 391–406.
Zames, G.: ‘Feedback and complexity, Special plenary lecture addendum’, inIEEE Conf. Decision Control, IEEE, 1976.
Zames, G.: ‘Optimal sensitivity and feedback: weighted seminorms, approximate inverses, and plant invariant schemes’, inProc. Allerton Conf., IEEE, 1979.
Zames, G.: ‘Feedback and optimal sensitivity: model reference transformations, multiplicative seminorms, and approximate inverses’,IEEE Trans. Auto. Control AC-26 (1981), 301–320.
Helton, J.W.: ‘Operator theory and broadband matching’, inProc. Allerton Conf., IEEE, 1979.
Tannenbaum, A.: ‘On the blending problem and parameter uncertainty in control theory’,Techn. Report Dept. Math. Weizmann Institute (1977).
Doyle, J.C. and Stein, G.: ‘Multivariate feedback design: concepts for a classical modern synthesis’,IEEE Trans. Auto. Control AC-26 (1981), 4–16.
Francis, BA. and Doyle, J.C.: ‘Linear control theory with anH00 optimality criterion’,SIAM J. Control and Opt.25 (1987), 815–844.
Francis, BA.:A course in H00control theory, Lecture notes in control and information sci., 88, Springer, 1987.
Boardman, J. and Vogt, P.:Homotopy invariant algebraic structures on topological spaces, Springer, 1973.
Spanier, E.:Algebraic topology, McGraw-Hill, 1966.
Haag, R.: ‘On quantum field theories’,Danske Mat.-Fys. Medd.29, no. 12 (1955), 17–112.
Emch, G.:Algebraic methods in statistical mechanics and quantum field theory, Wiley, 1972.
Streit, L.: ‘Energy forms: Schroedinger theory, processes. New stochastic methods in physics’,Physics reports 77, no. 3 (1980), 363–375.
Streater, R.F. and Wightman, A.S.:PCT, spin and statistics, and all that, Benjamin, 1964.
Haar, A.: ‘Die Minkowskische Geometrie and die Annäherung an stetige Funktionen’,Math. Ann.78 (1918), 249–311.
Akhiezer, N.I.:Theory of approximation, F. Ungar, 1956 (translated from the Russian).
Cheney, E.W.:Introduction to approximation theory, McGraw-Hill, 1966, Chapt. 3.
Holland, A.S. and Sahney, B.N.:The general problem of approximation and spline functions, R.E. Krieger, 1979, Chapt. 2.
Lorentz, G.G. and Riemenschneider, S.D.: ‘Approximation and interpolation in the last 20 years’, inBirkhoff interpolation, Addison-Wesley, 1983, pp. xix–lv; In particular, xx–xxiii.
Timan, A.F.:Theory of approximation of functions of a real variable, Pergamon, 1963, Chapt. 2 (translated from the Russian).
Rice, J.R.:The approximation of functions, 1, Addison-Wesley, 1964.
Meinardus, G.:Approximation of functions: theory and numerical methods, Springer, 1967.
Bridges, D.S.: ‘Recent developments in constructive approximation theory’, in A.S. Troelstra and D. van Dalen (eds.):The L.E.J. Brouwer Centenary Symposium, North-Holland, 1982, pp. 41–50.
Haar, A.: ‘Der Massbegriff in der Theorie der kontinuierlichen Gruppen’,Ann. of Math. (2)34 (1933), 147–169.
Bourbaki, N.:Elements of mathematics. Integration, Addison-Wesley, 1975, Chapt. 6; 7; 8 (translated from the French).
Weil, A.:l’lntegration dans les groupes topologiques et ses applications, Hermann, 1940.
Loomis, L.H.:An introduction to abstract harmonic analysis, v. Nostrand, 1953.
Helgason, S.:Differential geometry and symmetric spaces, Acad. Press, 1962.
Hewitt, E. and Ross, K.A.:Abstract harmonic analysis, 1–2, Springer, 1979.
Haar, A.: ‘Zur Theorie der orthogonalen Funktionensysteme’,Math. Ann.69 (1910), 331–371.
Alexits, G. [G. Aleksits]:Convergence problems of orthogonal series, Pergamon, 1961 (translated from the Russian).
Ul’yanov, P.L.: ‘On Haar series’,Mat. Sb.63, no. 3 (1964), 356–391 (in Russian).
Ul’yanov, P.L.: ‘Absolute and uniform convergence of Fourier series’,Math. USSR Sb.1, no$12 (1967), 169–197. (Mat. Sb.72, no. 2 (1967), 193–225 )
Golubov, B.I.: ‘Series with respect to the Haar system’,J. Soviet Math.1 (1971), 704–726. (Itogi. Nauk. Mat. Anal 1970 (1971), 109–143)
Kashin, B.S. and Saakyan, A.A.:Orthogonal series, Moscow, 1984 (in Russian).
Singer, I.M.:Bases in Banach spaces, 1–2, Springer, 1970–1981.
Lindenstrauss, J. and Tzafriri, L.:Classical Banach spaces, 1–2, Springer, 1977–1979.
Hadamard, J.: ‘Resolution d’une question relative aux determinants’,Bull. Sci. Math. (2)17 (1893), 240–246.
Hall, M.:Combinatorial theory, Blaisdell, Waltham (MA), 1967, Chapt. 14.
Peterson, W.W.:Error-correcting codes, M.I.T. amp; Wiley, 1961.
Butson, A.T.: ‘Generalized Hadamard matrices’,Proc. Amer. Math. Soc.13 (1962), 894–898.
Wallis, W.D., Street, A.P. and Wallis, J.S.:Combinatorics: room squares, sum-free sets, Hadamard matrices, Springer, 1972.
Hughes, D.R. and Piper, F.C.:Design theory, Cambridge Univ. Press, 1988.
Macwilliams, F.J. and Sloane, N.J.A.:The theory of error correcting codes, l–ll, North-Holland, 1977.
Agaian, S.S.:Hadamard matrices and their applications, Lecture notes in math., 1168, Springer, 1985.
Beth, T., Jungnickel, D. and Lenz, H.:Design theory, Cambridge Univ. Press, 1986.
Hedayat, A. and Wallis, W.D.: ‘Hadamard matrices and their applications’,Ann. Stat.6 (1978), 1184–1238.
Hadamard, J.: ‘Essai sur l’dtude des fonctions donnfes par leurs développement de Taylor’,J. Math. Pures Appl. (4)8 (1892), 101–186.
Bieberbach, L.:Anafytische Fortsetzung, Springer, 1955.
Dienes, P.:The Taylor series, Oxford Univ. Press, 1931.
Bourion, G.:L’ultraconvergence dans les séries de Taylor, Hermann, 1937.
Hadamard, J.: ‘Étude sur les propriétés des fonctions entières et en particulier d’une fonction considérée par Riemann’,J. Math. Pures Appl. (4)9 (1893), 171–215.
Markushevich, A.I.:Theory of functions of a complex variable, 1, Chelsea, 1977 (translated from the Russian).
Levin, B.Ya.:Distributions of zeros of entire functions, Amer. Math. Soc., 1964 (translated from the Russian).
Boas, R.P.:Entire functions, Acad. Press, 1954.
Titchmarsh, E.C.:The theory of functions, Oxford Univ. Press, 1979.
Hadamard, J.: ‘Résolution d’une question relative aux déterminants’,Bull Set Math. (2)17 (1893), 240–246.
Hadamard, J.: ‘Sur la distribution des zéros de la fonction ζ(s) et ses conséquences arithméiques’,Bull Soc. Math. France 24 (1896), 199–220.
Markushevich, A.I.:Theory of functions of a complex variable, 1, Chelsea, 1977 (translated from the Russian).
Privalov, I.I.:Subharmonic functions, Moscow-Leningrad, 1937 (in Russian).
Solomentsev, E.D.: ‘A three-sphere theorem for harmonic functions’,Dokl Akad. Nauk ArmSSR 42, no. 5 (1966), 274–278 (in Russian).
Boas, R.P.:Entire functions, Acad. Press, 1954.
Titchmarsh, E.C.:The theory of functions, Oxford Univ. Press, 1979.
Hadamard, J.: ‘Théoréme sur les series entières’,Acta Math.22 (1899), 55–63.
Hadamard, J.: ‘La série de Taylor et son prolongement analytique’,Scientia Phys.-Math., no. 12 (1901).
Bieberbach, L.:Anafytische Fortsetzung, Springer, 1955.
Boas, R.P.:Entire functions, Acad. Press, 1954.
Titchmarsh, E.C.:The theory of functions, Oxford Univ. Press, 1979.
Pommerenke, E.:Univalent functions, Vandenhoeck amp; Ruprecht, 1975.
Hadamard, J.: ‘Memoire sur le problfeme d’analyse relatif a l’equilibre des plagues elastiques eucastrees’, Mém. Prés. par divers savants à I’Acad. Sci. 33 (1907).Also: Oeuvres, Vol. II, C.N.R.S. (1968), pp. 515–631.
Schiffer, M. and Spencer, D.C.:Functionals of finite Riemann surfaces, Princeton Univ. Press, 1954.
Warschawski, S.E.: ‘On Hadamard’s variation formula for Green’s function’,J. Math. Mech.9 (1960), 497–511.
Hadwiger, H.: ‘Ueber Treffanzahlen bei translationsgleichen Eikörpern’,Arch. Math. (Basel) 8 (1957), 212–213.
Boltyanskii, V.G. and Soltan, P.S.:Combinatorial geometry of various classes of convex sets, Kishinev, 1978 (in Russian).
Lassak, M.: ‘Solution of Hadwiger’s covering problem for centrally symmetric convex bodies inE3’,J. London Math. Soc. (2)30 (1984), 501–511.
Danzer, L., Gronbaum, 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.
Hadwiger, H. and Debrunner, H.: ‘Kombinatorische Geometrie in der Ebene’,L’Enseign. Math.2 (1959).
Gruber, P.M. and Lekkerkerker, C.G.:Geometry of numbers, North-Holland, 1987.
Haefliger, A.: ‘Feuilletages sur les variétés ouvertes’,Topology 9, no. 2 (1970), 183–194.
Haefliger, A.: ‘Homotopy and integrability’, in N.H. Kuiper (ed.):Manifolds: Amsterdam 1970, Lecture notes in math., Vol. 197, Springer, 1971, pp. 133–163.
Lawson, H.:The quantitative theory of foliations, Amer. Math. Soc., 1977.
Furs, D.B.: ‘Cohomology of infinite-dimensional Lie algebras and characteristic classes of foliations’,J. Soviet Math.11 (1979), 922–980. (Itogi Nauk. i Tekhn. Sovrem. Probl. Mat.10 (1978), 179–285 )
Fuks, D.B.: ‘Foliations’,J. Soviet Math.18 (1982), 255–291. (Itogi Nauk. i Tekhn. Algebra Topol. Geom.18 (1981), 151–213)
Hahn, H.: ‘Ueber lineare Gleichungsysteme in linearen Räume’,J. ReineAngew. Math.157 (1927), 214–229.
Banach, S.: ‘Sur les fonctionelles linéaires’Studia Math.1 (1929), 211–216.
Banach, S.: ‘Sur les fonctionelles linéaires II’,Studia Math.1 (1929), 223–239.
Kolmogorov, A.N. and Fomin, S.V.:Elements of the theory of functions and functional analysis, Graylock, 1957–1961 (translated from the Russian).
Kantorovich, L.V. and Akilov, G.P.:Functional analysis, Pergamon, 1982 (translated from the Russian).
Dunford, N. and Schwartz, J.T.:Linear operators. General theory, 1, Interscience, 1958.
Kothe, G.:Topological vector spaces, Springer, 1969.
Dunford, N. and Schwartz, J.T.:Linear operators. General theory, 1, Interscience, 1958.
Halmos, P.R.:Measure theory, v. Nostrand, 1950.
Rudin, W.:Real and complex analysis, McGraw-Hill, 1966.
Royden, H.L.:Real analysis, Macmillan, 1968.
Chunikhin, S.A.:Subgroups of finite groups, Wolters-Noordhoff, 1969 (translated from the Russian).
Itogi Nauk. i Tekhn. Algebra. 1964 (1966), 7–46.
Huppert, B.:Endliche Gruppen, 1, Springer, 1979.
Gorenstein, D. (ed.):Reviews on finite groups, Amer. Math. Soc. 1974.
Halphen, G.H.: ‘Sur les courbes planes du sixièeme degré à neuf points double’,Bull. Soc. Math. France 10 (1882), 162–172.
Bertini, E:Ann. Mat. Pura Appl 8 (1877), 224–286.
Dolgachev, I.V.: ‘On rational surfaces with a pencil of elliptic curves’,Izv. Akad. Nauk SSSR Ser. Mat.30 (1966), 1073–1100 (in Russian).
Hamilton, W.R.:Philos. Transact. Roy. Soc. London Ser. A 1 (1835), 95–144.
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Bliss, G.A.:Lectures on the calculus of variations, Chicago Univ. Press, 1947.
Pontryagin, L.S.:The mathematical theory of optimal processes, Wiley, 1962 (translated from the Russian).
Goldstein, H.:Classical mechanics, Addison-Wesley, 1950.
Crouch, P.E. and Schaft, A.J. van der:Variational Hamiltonian control systems, Lecture notes in control and inform., 101, Springer, 1987.
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Hall, M.:The theory of groups, Macmillan, 1959.
Huppert, B.:Endliche Gruppen, 1, Springer, 1967.
Variational principles of mechanics, Moscow, 1959 (in Russian).
Pars, L.A.:A treatise on analytical dynamics, Heinemann, 1965.
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Akhiezer, N.I.:The calculus of variations, Blaisdell, 1962 (translated from the Russian).
Goldstein, H.:Classical mechanics, Addison-Wesley, 1950.
Lions, P.L.:Generalized solutions of Hamilton-Jacobi equations, Pitman, 1982.
Fleming, W. and Rishel, R.:Deterministic and stochastic optimal control, Springer, 1975.
Lions, P.L.: ‘On the Hamilton-Jacobi-Bellman equations’,Acta. Appl. Math. 1 (1983), 17–41.
Benton, S.H., Jr.:The Hamilton-Jacobi equation: a global approach, Acad. Press., 1977.
Hamilton, W.R.:Lectures on quaternions, Dublin, 1853.
Rutherford, D.E.:Vector mechanics, Oliver amp; Boyd, 1949.
Apostol, T.M.:Calculus, 1–2, Blaisdell, 1964.
Holman, H. and Rummler, H.:Alternierende Differentialformen, Bl Wissenschaftsverlag, 1972.
Hamilton, W.:Report of the 4-th meeting of the British Association for the Advancement of Science, London, 1835, pp. 513–518.
Ostrogradski, M.:Mem. Acad. Sci. St. Petersbourg 8, no. 3 (1850), 33–48.
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Pars, L.A.:A treatise on analytical dynamics, Heinemann, 1965.
Arnol’d, V.I.:Mathematical methods of classical mechanics, Springer, 1978 (translated from the Russian).
Levi-Civita, T. and Amaldi, U.:Lezioni di meccanica razionale, 2, Zanichelli, 1951.
Whittaker, E.T.:Analytical dynamics of particles and rigid bodies, Dover, reprint, 1944.
Moser, J.: ‘Various aspects of integrable Hamiltonian systems’, in J. Guckenheimer, J. Moser and Sh.E. Newhouse (eds.):Dynamical Systems, BirkMuser, 1980, pp. 233–289.
Arnol’d, V.I..: Encycl. of Math. Sci., 3; 4; 7, Springer, 1988- (translated from the Russian).
Fomento, A.T.:Integrability and nonintegrability in geometry and mechanics, Kluwer, 1988 (translated from the Russian).
Faddeev, L.D. and Takhtajan, LA.:Hamiltonian methods in the theory of solitons, Springer, 1987 (translated from the Russian).
Drazin, P.G.:Solitons, Cambridge Univ. Press, 1983.
Lyapunov, A.M.:Problème général de la stabilite du mouvement, Princeton Univ. Press, 1947 (translated from the Russian). Reprint: Krauss, 1950.
Krein, M.G.: ‘Foundations of the theory of λ-zones of stability of a canonical system of linear differential equations with periodic coefficients’,Transl. Amer. Math. Soc. (2)120 (1983), 1–70. (In memoriam: A.A. Andronov (1955), 413–498 )
Yakubovich, VA. and Starzhinskii, V.M.:Linear differential equations with periodic coefficients, Wiley, 1975 (translated from the Russian).
Gel’fand, I.M. and Lidskii, V.B.: ‘On the structure of stability regions of linear canonical systems of differential equations with periodic coefficients’,Uspekhi Mat. Nauk 10, no. 1 (1955), 3–40 (in Russian).
Sternberg, R.L.: ‘Variational methods and non-oscillation theorems for systems of differential equations’,Duke Math. J.19 (1952), 311–322.
Yakubovich, V.A.: ‘Oscillatory properties of solutions of canonical equations’,Mat. Sb.56 (98), no. 1 (1962), 3–42 (in Russian).
Krein, M.G.: ‘Hamiltonian systems of linear differential equations with periodic coefficients’,Transl Amer. Math. Soc. (2)120 (1983), 139–168. (Proc. Intern. Symp. Non-Linear Oscillations 1 (1963), 277–305 )
Lidskii, V.B.: ‘Oscillation theorems for canonical systems of differential equations’,Dokl. Akad. Nauk SSSR 102, no. 5 (1955), 877–880 (in Russian).
Derguzov, V.M.: ‘On stability of the solutions of the Hamilton equation with unbounded periodic operator coefficients’,Mat. Sb.63 (105), no. 4 (1964), 591–619 (in Russian).
Moser, J.: ‘New aspects in the theory of stability of Hamiltonian systems’,Comm. PureAppl. Math.11 (1958), 81–114.
Coppel, WA. and Howe, A.: ‘On the stability of linear canonical systems with periodic coefficients’,J. Austral Math. Soc.5 (1965), 169–195.
Mitropol’skii, Yu.A.:An averaging method in non-linear mechanics, Kiev, 1971 (in Russian).
Erugin, N.P.:Linear systems of ordinary differential equations with periodic and quasi-periodic coefficients, Acad. Press, 1966 (translated from the Russian).
Lidskii, V.B. and Frolov, P.A.: ‘The structure of the domain of stability of a self-adjoint system of differential equations with periodic coefficients’,Mat. Sb.71 (113), no. 1 (1966), 48–64 (in Russian).
Daletskii, Yu.L. and Krein, M.G.:Stability of solutions of differential equations in Banach space, Amer. Math. Soc., 1974 (translated from the Russian).
Fomin, V.N.:Mathematical theory of parameter resonance in linear distributed systems, Leningrad, 1972 (in Russian).
Hammerstein, A.: ‘Nichtlineare Integralgleichungen nebst Anwendungen’,Acta Math.54 (1930), 117–176.
Tricomi, F.G.:Integral equations, Dover, reprint, 1985.
Vainberg, M.M.:Variational methods for the study of nonlinear operators, Holden-Day, 1964 (translated from the Russian).
Krasnosel’skii, MA.:Topological methods in the theory of nonlinear integral equations, Pergamon, 1964 (translated from the Russian).
Smirnov, N.S.:Introduction to the theory of integral equations, Moscow-Leningrad, 1936 (in Russian).
Smale, S.: ‘Generalised Poincaré conjecture in dimensions amp;gt;4’,Ann. of Math (2)74 (1961), 391–466.
Smale, S.: ‘Structure of manifolds’,Amer. J. Math.84 (1962), 387–399.
Smale, S.: ‘A survey of some recent developments in differential topology’,Bull. Amer. Math. Soc.69 (1963), 131–145.
Kirby, R.C. and Siebenmann, L.C.:Foundational essays on topological manifolds, smoothings, and triangulations, Princeton Univ. Press, 1977.
Rourke, K. and Sanderson, B.:Introduction to piecewise linear topology, Springer, 1972.
Rokhlin, V.A. and Fuks, D.B.:Beginner’s course in topology. Geometric chapters, Springer, 1984 (translated from the Russian).
Milnor, J.:Morse theory, Princeton Univ. Press, 1963.
Milnor, J.:Lectures on the h-cobordism theorem, Princeton Univ. Press, 1965.
Jahnke, E., Emde, F. and Lösch, F.:Tafeln höheren Funktionen, Teubner, 1966.
Riesz, F.: ‘Ueber die Randwerte einer analytischen Funktion’,Math Z 18 (1923), 87–95.
Priwalow, I.I. [I.I. Privalov]:Randeigenschaften anafytischer Funktionen, Deutsch. Verlag Wissenschaft., 1956 (translated from the Russian).
Stein, E. and Weiss, G.: ‘On the theory of harmonic functions of several variables’,Acta Math 103 (1960), 25–62.
Hoffman, K.:Banach spaces of analytic functions, Prentice-Hall, 1962.
Duren, P.:Theory of H p -spaces, Acad. Press, 1970.
Rudin, W.:Function Theory In Pofydiscs, Benjamin, 1969.
Coifman, R.R. and Weiss, G.: ‘Extensions of Hardy spaces and their use in analysis’,Bull. Amer. Math. Soc.83, no. 4 (1977), 569–645.
Petersen, K.E.:Brownian motion, Hardy spaces, and bounded mean oscillation, Cambridge Univ. Press, 1977.
Koosis, P.:Introduction to H p -spaces. With an appendix on Wolffs proof of the corona theorem, Cambridge Univ. Press, 1980.
Rudin, W.:Function theory in the unit ball of C1 Springer, 1980.
Folland, G.B. and Stein, E.M.:Hardy spaces on homogeneous groups, Princeton Univ. Press, 1982.
Gameun, T.:Uniform algebras, Prentice-Hall, 1969.
Garnett, J.:Bounded analytic functions, Acad. Press, 1981.
Fefferman, C. and Stein, E.M.: ‘H p spaces of several variables’,Acta Math.129 (1972), 137–193.
Hardy, G.H.: ‘Some theorems connected with Abel’s theorem on the continuity of power series’,Proc. London. Math. Soc. (2)4 (1907), 247–265.
Rudin, W.:Principles of mathematical analysis, McGraw-Hill, 1976.
Hardy, G.H., Littlewood, J.E. and Pólya, G.:Inequalities, Cambridge Univ. Press, 1934.
Nikol’skii, S.M.:Approximation Of Functions Of Several Variables And Imbedding Theorems, Springer, 1975 (translated from the Russian).
Muckenhoupt, B.: ‘Hardy’s inequality with weights’,Studia Math.44 (1972), 31–38.
Hardy, G.H. and Littlewood, J.E.: ‘Some new convergece criteria for Fourier series’,J. London. Math. Soc.1 (1932), 252–256.
Bary, N.K. [N.K. Bari]:A treatise on trigonometric series, Pergamon, 1964 (translated from the Russian).
Linnik, YU.V.:The dispersion method in binary additive problems, Amer. Math. Soc., 1963 (translated from the Russian).
Bredikhin, B.M. and Linnik, Yu.V.: ‘Asymptotic behaviour and ergodic properties of solutions of the generalized Hardy-Littlewood equation’,Mat. Sb.71, no. 2 (1966), 145–161 (in Russian).
Bredikhin, B.M.: ‘The dispersion method and definite binary additive problems’,Russian Math. Surveys 20, no$12 (1965), 85–125. (Uspekhi Mat. Nauk 20, no. 2 (1965), 89–130 )
Hardy, G.H. and Littlewood, J.E.: ‘Tauberian theorems concerning power series and Dirichlet’s series whose coefficients are positive’,Proc. London. Math. Soc. (2)13 (1914), 174–191.
Tuchmarsh, E.:The theory of functions, Oxford Univ. Press, 1979.
Hardy, G.H. and Littlewood, J.E.: ‘A maximal theorem with function-theoretic applications’,Acta. Math.54 (1930), 81–116.
Zygmund, A.:Trigonometric series, 1, Cambridge Univ. Press, 1988.
Stein, E.M. and Weiss, G.:Fourier analysis on Euclidean spaces, Princeton Univ. Press, 1971.
Hardy, G.H.: ‘The mean value of the modulus of an analytic function’,Proc. London. Math. Soc. (2) 14 (1915), 269–277.
Privalov, I.I.:Subharmonic functions, Moscow-Leningrad, 1937 (in Russian
Rado, T.:Subharmonic functions, Springer, 1937.
Duren, P.:Theory of H p spaces, Acad. Press, 1970.
Doob, J.L.:Classical potential theory and its probabilistic counterpart, Springer, 1984.
Hardy, G.H.: ‘Some formulae in the theory of Bessel functions’,Proc. London. Math. Soc. (2) 23 (1925), 61–63.
Brychkov, Yu.A. and Prudnikov, A.P.:Integral transforms of generalized functions, Gordon amp; Breach, 1989 (translated from the Russian).
Hardy, G.H.: ‘On double Fourier series and especially those which represent the double zeta-function with real and incommensurable parameters’,Quarterly J. Math.37 (1905), 53–79.
Hahn, H.:Theorie der reellen Funktionen, 1, Springer, 1921.
Ash, J.M. (ed.):Studies in harmonic analysis, Math. Assoc. Amer., 1976.
Katznelson, Y.:An introduction to harmonic analysis, Dover, reprint, 1976.
Peter, F. and Weyl, H.: ‘Die Vollstandigkeit der primitiven Darstellungen einer geschlossener kontinuierlichen Gruppe’,Math. Ann.97 (1927), 737–755.
Pontryagin, L.S.: ‘The theory of commutative topological groups’,Ann. of Math. (2) 35, no. 2 (1934), 361–388 (in Russian).
Kampen, E.R. Van:Proc. Nat. Acad. Sci. USA 20 (1934), 434–436.
Weil, A.:l’lntegration dans les groupes topologiques et ses applications, Hermann, 1940.
Gel’fand, I.M. and Raikov, D.A.: ‘Nondegenerate unitary representations of locally (bi)compact groups’,Mat. Sb.13(55) (1943), 301–316 (in Russian). English abstract.
Raikov, D.A.: ‘Harmonic analysis on commutative groups with the Haar measure and character theory’,Trudy Mat. Inst. Steklov.14 (1945), 1–86 (in Russian). English abstract.
Gelfand, I.M. [I.M. Gel’fand], Raikov, D.A. [D.A. Raikov] and Schilow, G.E. [G.E. Shilov]:Kommutative Normierte Ringe, Deutsch. Verlag Wissenschaft., 1964 (translated from the Russian).
Naimark, M.A.:Normed rings, Reidel, 1984 (translated from the Russian).
Pontryagin, L.S.:Topological Groups, Princeton Univ. Press, 1958 (translated from the Russian).
Bourbaki, N.:Elements of mathematics. Spectral theories, Addison-Wesley, 1977 (translated from the French).
Dixmier, J.:C* algebras, North-Holland, 1977 (translated from the French).
Helson, H., et al.: ‘The functions which operate on Fourier transforms’,Acta Math.102 (1959), 135–157.
Hewitt, E. and Ross, K.A.:Abstract harmonic analysis, 1–2, Springer, 1963–1970.
Loomis, L.H.:An introduction to abstract harmonic analysis, v. Nostrand, 1953.
Malliavin, P.: ‘Impossibility de la synthase spectrale sur les groupes abéiens non compacts’,Publ. Math. IHES 2 (1959), 61–68.
Krein, M.G.: ‘Sur une généralisation du théoième de Plancherel au cas des intégrates de Fourier sur les groupes topologiques commutatifs’,Dokl. Akad. Nauk SSSR 30 (1941), 484–488.
Drury, S.W.: ‘Sur les ensembles de Sidon’,C.R. Acad. Sci. Paris A271 (1970), 162–163.
Varopoulos, N.Th.: ‘Sur la réunion de deux ensembles de Helson’,C.R. Acad. Sci. Paris A271 (1970), 251–253.
Rudin, W.:Fourier analysis on groups, Wiley, 1962.
Reiter, H.:Classical harmonic analysis and locally compact groups, Clarendon Press, 1968.
LÅindahl, L.-A. and Poulsen, F.:Thin sets in harmonic analysis, M. Dekker, 1971.
Graham, C.C. and McGehee, O.C.:Essays in commutative harmonic analysis, Springer, 1979.
López, J. and Ross, K.:Sidon sets, M. Dekker, 1975.
Krylov, N.M. and Bogolyubov, N.N.:Introduction to nonlinear mechanics, Princeton Univ. Press, 1947 (translated from the Russian).
Bogolyubov, N.N. and Mitropol’skii, Yu.A.:Asymptotic methods in the theory of non-linear oscillations, Hindushtan Publ. Comp., Delhi, 1961 (translated from the Russian).
Popov, E.P. and Pal’tov, I.P.:Approximate methods for studying non-linear automatic systems, Translation Services, Ohio, 1963 (translated from the Russian).
Fock, V.A. [V.A. For]:The theory of space, time and gravitation, Macmillan, 1954 (translated from the Russian).
Besse, A.L.:Einstein manifolds, Springer, 1987.
‘Elie Cartan et les mathématiques d’auyourd’hui’,Asterisque (1985).
Hodge, W.V.D.:The theory and applications of harmonic integrals, Cambridge Univ. Press, 1952.
Rham, G. de:Differentiable manifolds, Springer, 1984 (translated from the French).
Schwartz, L.:Equaciones diferenciales parciales elipticas, Univ. Nac. Colombia, 1973.
Schwartz, L.:Variedades analiticas complejas, Univ. Nac. Colombia, 1956.
Wells, JR., R.O.: Differential analysis on complex manifolds, Springer, 1980.
Chern, S.S.:Complex manifolds without potential theory, Springer, 1979.
Goldberg, S.I.:Curvature and homology, Acad. Press, 1962.
Yano, K. and Bochner, S.:Curvature and Betti numbers, Princeton Univ. Press, 1953.
Matsushima, Y. and Murakami, S.: ‘On vector bundle valued harmonic forms and automorphic forms on symmetric Riemannian manifolds’,Ann. of Math.78 (1963), 365–416.
Kohn, J.J.: ‘Harmonic integrals on strongly pseudoconvex manifolds I’Ann. of Math.78 (1963), 112–148.
Kohn, J.J.: ‘Harmonic integrals on strongly pseudoconvex manifolds II’,Ann. of Math.79 (1964), 450–472.
Timan, A.F. and Trofimov, V.N.:Introduction to the theory of harmonic functions, Moscow, 1968 (in Russian).
Günter, N.M. [N.M. Gyunter]:Potential theory and its applications to basic problems of mathematical physics, F. Ungar, 1967 (translated from the Russian).
Sretenskii, L.N.:Theory of the Newton potential, Moscow-Leningrad, 1946 (in Russian).
Brélot, M.:Eléments de la théorie classique du potentieI, Sorbonne Univ. Centre Doc. Univ., Paris, 1959.
Kellogg, O.D.:Foundations of potential theory, Springer, 1967. Re-issue: Springer, 1967.
Vladimirov, V.S.:Equations of mathematical physics, Mir, 1984 (translated from the Russian).
Lavrent’ev, M.A. and Shabat, B.V.:Methoden der komplexen Funktionentheorie, Deutsch. Verlag Wissenschaft., 1967 (translated from the Russian).
Markushevich, A.I.:Theory of functions of a complex variable, 2, Chelsea, 1977 (translated from the Russian).
Lavrentiev, M.M. [M.M. Lavrent’ev]:Some improperly posed problems of mathematical physics, Springer, 1967 (translated from the Russian).
Mergelyan, S.N.: ‘Harmonic approximation and approximate solution of Cauchy’s problem for the Laplace equation’, Uspekhi Mat. Nauk 11, no. 5 (1956), 3 - 26 (in Russian).
Priwalow, I.I. [I.I. Privalov]:Randeigenschaften analytischer Funktionen, Deutsch. Verlag Wissenschaft., 1956 (translated from the Russian).
Solomentsev, E.D.: ‘Harmonic and subharmonic functions and their generalizations’,Itogi Nauk. Ser. Mat., Mat. Anal., Teor. Veroyatnost., Regulirovanie, 1962 (1964), 83–100 (in Russian).
Fuglede, B.:Finely harmonic functions, Springer, 1972.
Hayman, W.K. and Kennedy, P.B.:Subharmonic functions, 1, Acad. Press, 1976.
Helms, L.L.:Introduction to potential theory, Wiley (Interscience), 1969.
Frostman, O.: ‘Potentiel d’equilibre et capacité des ensembles avec quelques applications à la théorie des fonctions’,Mett. Lands Univ. Mat. Sem.3 (1935), 1–118.
Brélot, M.:Elements de la théorie classique du potentiel, Sorbonne Univ. Centre Doc. Univ., Paris, 1959.
Constantinescu, C. and Cornea, A.:Potential theory on harmonic spaces, Springer, 1972.
Carleman, T.: ‘Sur les fonctions inverses des fonctions entières d’ordre fini’,Ark. Mat.15, no. 10 (1921), 1–7.
Nevanlinna, F. and Nevanunna, R.: ‘Ueber die Eigenschaf- ten einer analytischen Funktion in der Umgebung einer singulären Stelle oder Linie’,Acta Soc. Sci. Fennica 50, no. 5 (1922), 1–46.
Vallée-Poussin, Ch.J. de la:Ann. Inst. H. Poincaré 2 (1932), 169–232.
Nevanunna, R.:Analytic Junctions, Springer, 1970 (translated from the German).
Goluzin, G.M.:Geometric theory of functions of a complex variable, Amer. Math. Soc., 1969 (translated from the Russian).
Brélot, M.:Elements de la theorie classique du potentiel, Sorbonne Univ. Centre Doc. Univ., Paris, 1959.
Haliste, K.: ‘Estimates of harmonic measure’,Ark. Mat.6, no. 1 (1965), 1–31.
Constantinescu, C. and Cornea, A.:Potential theory on harmonic spaces, Springer, 1972.
Garnett, J.B.:Applications of harmonic measure, Wiley (Interscience), 1986.
Makarov, N.: ‘On the distortion of boundary sets under conformal mappings’,Proc. London Math. Soc.51 (1985), 369–384.
Nevanlinna, F. and Nevanlinna, R.: ‘Ueber die Eigenschaften einer analytischen Funktion in der Umgebung einer singularen Stelle oder linie’,Acta Soc. Sci. Fennica 50, no. 5 (1922), 1–46.
Nevanlinna, R.:Analytic Junctions, Springer, 1970 (translated from the German).
Sobolev, S.L.:Partial differential equations of mathematical physics, Pergamon, 1964 (translated from the Russian).
Tichonoff, A.N. [A.N. Tikhonov] and Samarskii, A.A.:Differentialgleichungen der mathematischen Physik, Deutsch. Verlag Wissenschaft., 1959 (translated from the Russian).
Brélot, M.:Elements de la theorie classique du potentiel, Centre Doc. Sorbonne Univ. Paris, 1959.
Berger, M.: Geometry, 1, Springer, 1987, p. 270 (translated from the French).
Coxeter, H.S.M.:Projective geometry, Blaisdell, 1964.
Coxeter, H.S.M.:The real projective plane, McGraw-Hill, 1949.
Hardy, G.H. and Wright, E.M.:An introduction to the theory of numbers, Oxford Univ. Press, 1979.
Brélot, M:Lectures on potential theory, Tata Inst. Fundam. Res., 1960.
Bauer, H.:Harmonische Raume und ihre Potentialtheorie, Springer, 1966.
Constantinescu, C. and Cornea, A.:Potential theory on harmonic spaces, Springer, 1972.
Brélot, M.:On topologies and boundaries in potential theory, Springer, 1971.
Bauer, H.: ‘Harmonische Raume’, inJahrbuch Uberblicke Mathematik, Bl Wissenschaftsverlag, 1981, pp. 9–35.
Brelot, M. (ed.):Potential theory. C.I.M.E. Stresa, 1969, Cremonese, 1970.
Gorelik, G.S.:Oscillations and waves, Moscow-Leningrad, 1950 (in Russian). References
Rayleigh, J.W.S.:The theory of sound, 1, Dover, reprint, 1945.
Weyl, H.: ‘Harmonics on homogeneous manifolds’,Ann. of Math.35 (1934), 486–499.
Hobson, E.W.:The theory of spherical and ellipsoidal harmonics, Chelsea, reprint, 1955.
Loéve, M.:Probability theory, 2, Springer, 1978.
Harnack, A.:Die Grundlagen der Theorie des logarithmischen Potentiales und der eindeutigen Potentialfunktion in der Ebene, Leipzig, 1887.
Courant, R. and Hilbert, D.:Methods of mathematical physics. Partial differential equations, 2, Interscience, 1965 (translated from the German).
Serrin, J.: ‘On the Harnack inequality for linear elliptic equations’,J. d’Anal. Math.4, no. 2 (1955–1956), 292–308.
Moser, J.: ‘On Harnack’s theorem for elliptic differential equations’,Comm. Pure Appl. Math.14 (1961), 577–591.
Moser, J.: ‘On Harnack’s theorem for parabolic differential equations’,Comm. Pure Appl. Math.17 (1964), 101–134.
Friedman, A.:Partial differential equations of parabolic type, Prentice-Hall, 1964.
Landis, E.M.:Second-order equations of elliptic and parabolic type, Moscow, 1971 (in Russian).
Boboc, N. and Mustaja, P.:Espaces harmoniques associes aux operateurs differentiels lineaires du second order de type elliptique, Springer, 1968.
Helms, L.L.:Introduction to potential theory, Wiley (Interscience), 1969.
Harnack, A.: ‘Anwendung der Fourier’schen Reihe auf die Theorie der Funktionen einer komplexen Veranderlichen’,Math. Ann.21 (1883), 305–326.
Pesin, I.N.:Classical and modern integration theories, Acad. Press, 1970 (translated from the Russian).
Hobson, E.W.:The theory of functions of a real variable and the theory of Fourier’s series, 1, Dover, reprint, 1957.
Petrowski, I.G. [I.G. Petrovskii]:Vorlesungen iiber partielle Differentialgleichungen, Teubner, 1965 (translated from the Russian).
Friedman, A.:Partial differential equations of parabolic type, Prentice-Hall, 1964.
Bony, J.-M.: ‘Operateurs elliptiques degeneres associes aux axiomatiques de la theorie du potentiel’, inPotential Theory, CIME, Stresa 1969, Cremonese, 1970, pp. 69–119.
Brélot, M.:Elements de la theorie classique du potentiel, Sorbonne Univ. Centre Doc. Univ., 1959.
Constantinescu, C. and Cornea, A.:Potential theory on harmonic spaces, Springer, 1972.
Loeb, P. and Walsh, B.: ‘The equivalence of Harnack’s principle and Harnack’s inequality in the axiomatic system of Brelot’,Ann. Inst. Fourier 15, no. 2 (1965), 597–600.
Vladimirov, V.S.:Methods of the theory of functions of several complex variables, M.I.T., 1966 (translated from the Russian).
Bochner, S. and Martin, W.T.:Several complex variables, Princeton Univ. Press, 1948.
Behnke, H. and Thullen, P.:Theorie der Funktionen meherer komplexer Veranderlichen, Springer, 1970.
Vladmrov, V.S.:Methods of the theory of functions of several complex variables, M.I.T., 1966 (translated from the Russian).
Behnke, H. and Thullen, P.:Theorie der Funktionen mehrerer komplexer Veranderlichen, Springer, 1970.
Bochner, S. and Martin, W.T.:Several complex variables, Princeton Univ. Press, 1948.
Hartogs, F.: ‘Zur Theorie der analytischen Funktionen mehrerer unabhangiger Veranderlichen, insbesondere uber die Darstellung derselber durch Reihen welche nach Potentzen einer Veranderlichen fortschreiten’,Math. Ann.62 (1906), 1–88.
Bochner, S. and Martin, W.T.:Several complex variables, Princeton Univ. Press, 1948.
Shabat, B.V.:Introduction to complex analysis, 1–2, Moscow, 1976 (in Russian).
Hormander, L.:An introduction to complex analysis in several variables, North-Holland, 1973.
Krantz, S.G.:Function theory of several complex variables, Wiley (Interscience), 1982.
Hasse, H.: ‘Ueberp-adische Schiefkorper und ihre Bedeutung fur die Arithmetik hyperkomplexen Zahlsysteme’,Math. Ann.104 (1931), 495–534.
Hasse, H.: ‘Die Struktur der R. Brauerschen Algebrenklassengruppe liber einem algebraischen Zahlkorper. Inbesondere Begrundung der Theorie des Normenrestsymbols und Herleitung des Reziprozitatsgesetzes mit nichtkommutativen Hilfsmitteln’,Math. Ann.107 (1933), 731–760.
Cassels, J.W.S. and Frohlich, A. (eds.):Algebraic number theory, Acad. Press, 1986.
Weil, A.:Basic number theory, Springer, 1967.
Hasse, H.: ‘Ueber die Darstellbarkeit von Zahlen durch quadratische Formen im Korper der rationalen Zahlen’,J. Reine Angew. Math.152 (1923), 129–148.
Hasse, H.: ‘Ueber die Aequivalenz quadratischer Formen im Korper der rationalen Zahlen’,J. Reine Angew. Math.152 (1923), 205–224.
Hasse, H.: ‘Symmetrische Matrizen im Korper der rationalen Zahlen’,J. Reine Angew. Math.153 (1924), 12–43.
Hasse, H.: ‘Darstellbarkeit von Zahlen durch quadratische Formen in einem beliebigen algebraischen Zahlkorper’,J. Reine Angew. Math.153 (1924), 113–130.
Hasse, H.: ‘Aequivalenz quadratischer Formen in einem beliebigen algebraischen Zahlkorper’,J. Reine Angew. Math.153 (1924), 158–162.
O’Meara, O.T.:Introduction to quadratic forms, Springer, 1963.
Lam, T.Y.:The algebraic theory of quadratic forms, Benjamin, 1973.
Cassels, J.W.S.:Rational quadratic forms, Acad. Press, 1978.
Hartshorne, R.:Algebraic geometry, Springer, 1977.
Manin, Yu.I.: ‘On the Hasse-Witt matrix of an algebraic curve’,Izv. Akad. Nauk. SSSR Ser. Mat.25, no. 1 (1961), 153–172 (in Russian).
Silverman, J.H.:The arithmetic of elliptic curves, Springer, 1986.
Hasse, H.: ‘Darstellbarkeit von Zahlen durch quadratische Formen in einem beliebigen algebraischen Zahlkörper’,J. ReineAngew. Math.153 (1924), 113–130.
Cassels, J.W.S. and Frohlich, A. (eds.):Algebraic number theory, Acad. Press, 1967.
Cassels, J.W.S.: ‘Diophantine equations with special reference to elliptic curves’,J. London Math. Soc.41 (1966), 193–291.
Manin, Yu.N.:Cubic forms. Algebra, geometry, arithmetic, North-Holland, 1974 (translated from the Russian).
Serre, J.-P.:Cohomologie Galoisienne, Springer, 1964.
Chernusov, V.:The Hasse principle for groups of type E 8, Minsk, 1988 (in Russian).
Rubin, K.: ‘Tate—Shafarevich groups and L-functions of elliptic curves with complex multiplication’,Invent. Math.89 (1987), 527–560.
Kolyvagin, V.: ‘The Mordell-Weil groups and the Shafarevich—Tate groups of Weil’s elliptic curves’,Izv. Akad. Nauk. SSSR Ser. Mat.52, no. 6 (1988).
Hausdorff, F.: Set theory, Chelsea, reprint, 1978 (translated from the German).
Arkhangel’skit, A.V. and Ponomarev, V.I.:Fundamentals of general topology: problems and exercises, Reidel, 1984 (translated from the Russian).
Hausdorff, F.: ‘Dimension and ausseres Mass’,Math. Ann.79 (1918), 157–179.
Hurevicz, W. and Wallman, G.:Dimension theory, Princeton Univ. Press, 1948.
Falconer, K.J.:The geometry of fractal sets, Cambridge Univ. Press, 1985.
Hausdorff, F.: ‘Dimension and äusseres Mass’,Math. Ann.79 (1918), 157–179.
Dunford, N. and Schwartz, J.T.:Linear operators. General theory, 1, Interscience, 1958.
Carleson, L.:Selected problems on exceptional sets, v. Nostrand, 1967.
Dellacherie, C.:Ensembles analytiques, capacites, mesures de Hausdorff, Lecture notes in math., 295, Springer, 1972.
Falconer, K.J.:The geometry of fractal sets, Cambridge Univ. Press, 1985.
Federer, H.:Geometric measure theory, Springer, 1969.
Kahane, J.-P. and Salem, R.:Ensembles parfaits et series trigonometriques, Hermann, 1963.
Gall, J.-F. Le: ‘Temps locaux d’intersection et points multiples des processus de Levy’, in Sem. de Probab. XXI, Lecture notes in math., Vol. 1247, Springer, 1987, pp. 341–374.
Munroe, M.E.:Introduction to measure and integration, Addison-Wesley, 1953.
Rogers, C.A.:Hausdorff measures, Cambridge Univ. Press, 1970.
Chirka, E.M.:Complex analytic sets, Kluwer, 1989 (translated from the Russian).
Hausdorff, F.:Set theory, Chelsea, 1978 (translated from the German).
Urysohn, P.S.:Works on topology and other fields of mathematics, 2, Moscow-Leningrad, 1951 (in Russian).
Hausdorff, F.:Set theory, Chelsea, reprint, 1978 (translated from the German).
Arkhangel’skii, A.V. and Ponomarev, V.I.:Fundamentals of general topology: problems and exercises, Reidel, 1984 (translated from the Russian).
Hausdorff, F.: ‘Summationsmethoden und Momentfolgen I, II’,Math. Z.9 (1921), 74–109; 280–299.
Hardy, G.H.:Divergent series, Clarendon, 1949.
Young, W.H.: ‘On the determination of the summability of a function by means of its Fourier constants’,Proc. London Math. Soc. (2) 12 (1913), 71–88.
Hausdorff, F.: ‘Eine Ausdehnung des Parsevalschen Satzes iiber Fourierreihen’,Math. Z 16 (1923), 163–169.
Bary, N.K. [N.K. Bari]:A treatise on trigonometric series, Pergamon, 1964 (translated from the Russian).
Kaczmarz, S. and Steinhaus, H.:Theorie der Orthogonalreihen, Chelsea, reprint, 1951.
Zygmund, A.:Trigonometric series, 2, Cambridge Univ. Press, 1988.
Leeuw, K. De, Kahane, J.P. and Katznelson, Y.: ‘Sur les coefficients de Fourier des fonctions continues’,C.R. Acad Sci. Paris 285 (1977), 1001–1003.
Krein, S.G., Petunin, Yu.I. and Sevenov, E.M.:Interpolation of linear operators, Amer Math. Soc., 1982 (translated from the Russian).
Prüfer, H.: ‘Theorie der Abelschen Gruppen’,Math. Z.20 (1924), 165–187.
Baer, R.: ‘Zur Einfiihrung des Scharbegriffs’,J. Reine Angew. Math.160 (1929), 199–207.
Certaine, J.: The ternary operation (abc)=ab−1c of a group’,Bull. 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’, inProc. 4-th All-Union. Mat. Conf., V. 1. 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’, inProc. Internal 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.
Neron, 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. AMS
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 iiber Differentialgeometrie und geometrische Grundlagen von Einsteins Relativitatstheorie. 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.:Einfuhrung 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.:Einfuhrung 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 Begriindung der Theorie quadratischer Formen von unendlichvielen Veranderlichen’,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., Gronbaum, 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.
Bryant, V.W. and Webster, R.J.: ‘Generalizations of the theorems of Radon, Helly, and Caratheodory’,Monatsh. Math.73 (1969), 309–315.
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.:Differentialgleichmgen 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 Henselschen 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.: ‘Elements de geometrie algebrique. IV’,Publ. Math. IHES, no. 32 (1967).
Raynaud, M.:Anneaux locaux Henseliens, 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
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.
Berezin, I.S. and Zhidkov, N.P.:Computing methods, Pergamon, 1973 (translated from the Russian).
Stewart, I.:Galois theory, Chapman amp; Hall, 1979.
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. CI. 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.
Hermite, 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.
Szego, 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 Hermite 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).
Dieudonng, J.A.:La geometrie 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).
Vladimirov, V.S.:Gleichungen der mathematischen Physik, Mir, 1984 (translated from the Russian).
Gohberg, I. and Goldberg, S.:Basic operator theory, Birkhauser, 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 a I’étude 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 Szokefalvi-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 Prinzipien der Mechanik’, inGesammelte 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
Cooudge, 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 methodes nouvelles de la mecanique celeste, 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’, inProc. Internal 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 Poincare-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
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’,Sitzmgsber. Deutsck Akad. Wiss. Phys.-Matk KI.16, no. 1 (1930), 42–56; 57–71.
Heyting, A.: ‘Die formalen Regeln der intuitionistischen Mathematik’,Sitzmgsber. Deutsck Akad. Wiss. Phys.-Matk KI.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 MAE. 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. Mulvey 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
Sommerville, D.M.Y.:An introduction to the geometry of n dimensions, Methuen, 1929.
Coxeter, H.S.M.:Introduction to geometry, Wiley, 1969, 185–186; 396–404.
Dixmier, J.:Les algèbres d’opérateurs dans I’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 infinite-dimensional 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 geodesies, Acad. Press, 1955.
Pogorelov, A. V.:Hilbert’s fourth problem, Winston amp; 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.:Singuldre Integralgleichungen mit besonderer Berucksichtigung des Fourierschen Integraltheorems, Gottingen, 1908. Thesis.
Schur, I.: ‘Bemerkungen zur Theorie der beschrankten Bilinearformen mit unendlich vielen Veranderlichen’,J. Reine Angew. Math.140 (1911), 1–28.
Hardy, G.H., Littlewood, 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 undpartielle Differentialgleichungen erster Ordnung, Teubner, 1956.
Young, L.:Lectures on the calculus of variations and optimal control theory, Saunders, Philadelphia, 1969.
Hilbert, D.: ‘Beweis fur die Darstellbarkeit der ganzen Zahlen durch eine feste Anzahl nter Potenzen (Waringsches Problem)’,Math. Ann.67 (1909), 281–300. (1937), 609–631.
Vinogradov, I.M.:The method of trigonometric sums in the theory of numbers, Interscience, 1954 (translated from the Rus-
Mardzhanishviu, K.K.:Izv. Akad Nauk SSSR Ser. Mat. (1937), 609–631.
Moiseiwitsch, 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 schdmas de Hillbert’, in Sem. Bourbaki, Vol. 13, 1960–1961.
Hartshorne, R.: ‘Connectedness of the Hilbert scheme’,Publ. Math. IHES 29 (1966), 5–48.
Dolgachev, I.V.: ‘Abstract algebraic geometry’,J. Soviet Math.2, no$13 (1974), 264–303. (Itogi Nauk. i Tekhn. Algebra Topol. Geom.10 (1972), 47–112 )
Dunford, N. and Schwartz, J.T.:Linear operators. Spectral theory, 2, Interscience, 1963.
Yosida, 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 Szokefalvi-Nagy, B.:Functional analysis, F. Ungar, 1955 (translated from the French).
Dieudonné, J.A.: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.:Grundzuge einer allgemeinen Theorie der linearen Integralgleichungen, Chelsea, reprint, 1953.
Riesz, M.: ‘Sur les fonctions conjugées’,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.:Grundzuge 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 Equations integrates singuliéres a noyau riel et symmdtrique, Uppsala, 1923.
Akhiezer, N.I.:The classical moment problem and some related questions in analysis, Oliver amp; Boyd, 1965 (translated from the Russian).
Dunford, N. and Schwartz, J.T.:Linear operators, 1–3, Interscience, 1958–1971.
Riesz, F. and Szokefalvi-Nagy, B.:Functional analysis, F. Ungar, 1955 (translated from the French).
Naimark, 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.
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$14 (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$14 (1971), 45–97. (Uspekhi Mat. Nauk 26, no. 4 (1971), 43–92 )
Naimark, 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], Kretn, 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 Kretn, M.G.: ‘Spectral theory of operators in spaces with an indefinite metric I’,Transl. Amer. Math. Soc. (2) 13 (1960), 105–176. (Trudy Moskov. Mat Obshch.5 (1956), 367–432 )
Iokhvidov, I.S. and Kretn, M.G.: ‘Spectral theory of operators in spaces with an indefinite metric ll’,Transl. Amer. Math. Soc. (2) 34 (1963), 283–374. (Trudy Moskov. Mat. Obshch.8 (1959), 413–496 )
Daletskit, Yu.L. and Kretn, 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.
Istrajescu, V.I.:Inner product spaces. Theory and applications, Reidel, 1987.
Munor, 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.:Hohere Geometrie, Deutsch. Verlag Wissensehaft., 1960 (translated from the Russian)
Forder, H.G.:Foundations of Euclidean geometry, Dover, reprint, 1958.
Aleksandrov, A.D.: ‘Foundation 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 Irreducibilitat ganzer rationaler Funktionen mit ganzzahligen Koeffitienten’,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)’, inSem Bourbaki, Vol. 22, 1969–1970.
Schinzel, A.: ‘Reducibility of polynomials’, inActes du Congres Internal Mathematiciens 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.: ‘Ueber die Theorie der algebraischen Formen’,Math. Ann.36 (1890), 473–534.
Serre, J.-P.: ‘Sur la dimension homologique des anneaux et des modules noethéliens’, in S. Iyanaga and Y. Kawada (eds.):Proc. Internal Symp. Algebraic Number Theory, Sci. Council Tokyo, 1955, pp. 175–189.
Serre, J.-P.:Algebre locale. Multiplicity, Springer, 1965.
Zariski, O. and Samuel, P.:Commutative algebra, 1, Springer,
Hilbert, D.: ‘Die Theorie der algebraischen Zahlkorper’,Jahresber. Deutsch. Matk-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.:Theorie des topos et cohomologie etale 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.:Grundzuge einer allgemeinen Theorie der linearen Integralgleichungen, Chelsea, reprint, 1953.
Hilbert, D.:Grundzuge 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:L2 theory’,Z Wahrsch. Verw. Geb.57 (1981), 453–476.
Hodge, W.V.D.: ‘The topological invariants of algebraic varieties’, inProc. Internal 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’, inJ. de Giomitrie Algebrique d’Angers, juillet 1979, Sythoff amp; 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. Guillan 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, Wiley, 1978.
Deligne, P.: ‘Poids dans la cohomologie des varietes algebriques’, in R. James (ed.):Proc. Internal 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 amp; Noordhoff, 1980, pp. 77–105.
Saavedra Rivano, N.:Categories Tannakiennes, Lecture notes in math., 265, Springer, 1972.
Deligne, P.: ‘Theorie de Hodge II, III’,Publ. Math. IHES 40 (1971), 5–58.
Deligne, P.: ‘Theorie 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 amp; Noordhoff, 1977, pp. 525–563.
Navarro Aznar, V.: ‘Sur la theorie de Hodge-Deligne’,Invent. Math.90 (1987), 11–76.
Cattani, E., Kaplan, A. and Schmid, W.: ‘L2 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’, inProc. Internal 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., Littlewood, 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).
Vladimirov, V.S.:Methods of the theory offunctions 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 Differentialformen 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’, inContributions to function theory. Internal. Colloq. Function Theory, Bombay 1960, Tata Inst., 1960, pp. 1–15.
Ramis, J.P.: ‘Theoremes de seperation et de finitude pour Thomologie et la cohomologie des espaces (p,q)-convexesconcaves’,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 Raume’,Math. Ann.136 (1958), 245–318.
Suslov, G.K.:Theoretical mechanics, Moscow, 1944 (in Russian).
Rutherford, D.E.:Classical mechanics, Oliver amp; 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.:Riemannsche 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).
Poincar£, H.:Oeuvres, 2, Gauthier-Villars, 1952.
Aleksandrov, P.S.: ‘Topological duality theorems. Part 2. Non-closed 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, RD.: ‘The algebraic simplicity of certain groups of homeomorphisms’,Amer. J. Math.80 (1958), 955–963.
Arens, RF.: ‘Topologies for homeomorphism groups’,Amer. J. Math.68, no. 4 (1946), 593–610.
Chernavskiĭ, A.V.: ‘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 methodes nouvelles de la mecanique celeste, 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$14 (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. Internal 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. References
Helgason, S.:Differential geometry, Lie groups, and symmetric spaces, Acad. Press, 1978.
Fuks, BA.:Special chapters in the theory of analytic functions of several complex variables, Amer. Math. Soc., 1965 (translated from the Russian).
Cartan, E.: ‘Domains born£s homogfenes de l’espace de n variables complexes’,Abk Math. Sem. Univ. Hamburg 11 (1935), 116–162.
Pyatetskiĭ-Shapiro, I.I.:Automorphic functions and the geometry of classical domains, Gordon amp; Breach, 1969 (translated from the Russian).
Vinberg, E.B., Gindikin, 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 )
Gindikin, S.G.: ‘Analysis in homogeneous domains’,Russian Math. Surveys 19, no$14 (1964), 3–92. (Uspekhi Mat. Nauk 19, no. 4 (1964), 3–92 )
Borel, A.: ‘Kahlerian coset spaces of semisimple Lie groups’,Proc. Nat. Acad Sci. USA 40 (1954), 1147–1151.
Vinberg, E.B. and Gindkin, S.G.: ‘Kahlerian 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 homogfenes complexes’,Canad J. Math.7, no. 4 (1955), 562–576.
Lichnerowicz, A.:Espaces homogenes Kahleriens, CNRS, 1953, pp. 171–184.
Onishchik, 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 homogfenes complexes compacts’,Comment. Mat. Hetv.37 (1962–1963), 111–120.
Fuks, BA.:Special chapters in the theory of analytic Junctions 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.: ‘Closed manifolds with homogeneous complex structure’,Amer. J. Math.76, no. 1 (1954), 1–32.
Borel, A. and Remmert, R.: ‘Ueber kompakte homogene Kahlersche Mannigfaltigkeiten’,Math. Ann.145, no. 5 (1962), 429–439.
Kaup, W.: ‘Reelle Transformationsgruppen und invariante Metriken auf komplexe Raume’,Invent. Math.3, no. 1 (1967), 43–70.
Dorfmeister, J. and Nakajima, K.: ‘The fundamental conjecture for homogeneous Kahler manifolds’,Acta Math.161, no. 1–2 (1988), 23–70.
Koecher, M.: ‘Die Geodatischen von Positivitatsbereichen’,Math Ann.135, no. 3 (1958), 192–202.
Vinberg, E.B.: ‘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 Positivitatsbereichen 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.
Gindikin, S.G.: ‘in homogeneous domains’,Russian Math. Surveys 19, no$14 (1964), 1–89. (Uspekhi Mat. Nauk 19, no. 4 (1964), 3–92 )
Vaĭnberg, B.R. and Gindikin, 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 differentiel, Hermann, 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 junctions 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’, inOeuvres completes. Partie I, Vol. 1–2, Gauthier-Villars, 1952.
Cartan, E.:La theorie des groupes finis et continus et la gtomitrie differentielle traities par la mithode du repere mobile, Gauthier-Villars, 1951.
Knuixov, 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 fibres principaux et des espaces homogfenes de groupes de lie compacts’,Ann. of Math.57 (1953), 115–207.
Gorbatsevich, V.V.: ‘Compact homogeneous manifolds of small dimension’, inGeometric methods in problems of algebra and analysis, Yaroslavl’, 1980, pp. 37–60 (in Russian).
Onishchik, L.: ‘Transitive compact transformation groups’,Transl. Amer. Math. Soc. (2) 55 (1966), 153–194. (Mat. Sb.60, no. 4 (1963), 447–485 )
Onishchik, 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).
Alekseevskii, 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, J.A.:Spaces of constant curvature, Publish or Perish, 1974.
Vinberg, E.B. and Onishchik, A.L.: ‘Fundamentals of the theory of lie groups’, inFundamental Directions, Vol. 20. Lie groups and lie algebras 1, VINITI, 1988, pp. 5–101 (in Russian).
Gorbatsevich, V.V. and Onishchik, A.L.: ‘Lie groups of transformations’, inFundamental Directions, Vol. 20. Lie groups and lie algebras 1, VINITI, 1988, pp. 103–240 (in Russian).
Knuixov, A.A.: ‘Introduction to representation theory and noncommutative harmonics’, inFundamental Directions, Vol. 22. Noncommutative harmonic analysis 1, VINITI, 1988, pp. 5–162 (in Russian).
Neretin, Yu.A.: ‘Representations of the Virasoro algebra and of affine algebras’, inFundamental 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 projective embedding of homogeneous varieties’, inAlgebraic topology; symposium in honour of S. Lefschetzy, 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’algfebre 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.:Homological dimensions of modules, Amer. Math. Soc., 1973.
Nǎstǎsescu, 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$15 (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.:Modern 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’algfebre 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 ann-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 algebrique et theorie des faisceaux, Hermann, 1958.
Bredon, G.:Sheaf theory, McGraw-Hill, 1967.
Teleman, C.:Grundziige 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 théorfemes de duality’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 closed 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 ä n dimensions généralisés’,C.R Acad. Sci. Paris Ser. I Math.202 (1936), 1327–1329.
Smith, PA.: ‘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.
Kdullov, A.A.: ‘Dynamical systems, factors and representations of groups’,Russian Math. Surveys 22, no$15 (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 ergodicZ-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.:Grundzuge 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, Eh.:Algebraic topology, McGraw-Hill, 1966.
Lefschetz, S.:Topology, Chelsea, reprint, 1956.
Maunder, C.Rf.: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 inn-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.
Whitehead, G.W.:Elements of homotopy theory, Springer, 1978.
Steenrod, N.E.:The topology of fibre bundles, Princeton Univ. Press, 1951.
Boltyanskii, 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 duality Suites exactes’,C.R Acad Sci.246 (1958), 2555–2558.
Eckmann, B. and Hilton, P.: ‘Groupes d’homotopie et dualite. Coefficients’,C.R 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.: ‘Decomposition homologique d’une polyfedre simplement connexe’,C.R Acad Sci.248 (1959), 2054–2056.
Hurewicz, W.: ‘Beitrage zur Topologie der Deformationen l–ll’,Proc. Ned. Akad. Weten. Ser. A 38 (1935), 112–119; 521–528.
Hurewicz, W.: ‘Beitrage zur Topologie der Deformationen lll–IV’,Proc. Ned. Akad. Weten. Ser. A 39 (1936), 117–126; 215–224.
Cech, E.: ‘Hoherdimensionale Homotopiegruppen’, inVerh. Intern. Mathematikerkongress Zurich, 1932, Orell Fussli, 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.
Whitehead, 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’, inColl. 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 amp; 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, Birkhauser, 1981.
Sullivan, D.: ‘Infinitesimal calculations in topology’,Publ. Math. IHES 47 (1977), 269–331.
Artin, M.: ‘The Stale topology of schemes’, inProc. 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.): ‘Revfetement Stales et groupes fondamental’, inSGA 1, Lecture notes in math., Vol. 224, Springer, 1971
Suiivan, D.: ‘Genetics of homotopy theory and the Adams conjecture’,Ann. of Math.100 (1974), 1–79.
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 fibres principaux et des espaces homogfenes de groupes de Lie compacts’,Ann. of Math.57 (1953), 115–207.
Maclane, S.:Homology, Springer, 1963.
Abe, E.:Hopf algebras, Cambridge Univ. Press, 1977.
Hazewinkel, M.:Formal groups and applications, Acad. Press, 1978.
Drinfel’d, V.G.: ‘Quantum groups’, inProc. Internal 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 Spharen 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 Sphare auf die Kiigelflache’,Math. Ann.104 (1931), 639–665.
Hopf, H.: ‘Ueber die Abbildungen von Spharen niedriger Dimension’,Fund. Math.25 (1935), 427–440.
Serre, J.-P.: ‘Groupes d’homotopie et classes de groupes alliens’,Ann. of Math.58 (1953), 258–294.
Whitehead, J.H.C.: ‘An expression of the Hopf invariant as an integral’,Proc. Nat. Acad Sci. USA 33 (1937), 117–123.
Whitehead, 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 groupsJ(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$11 (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 vollstandigen differentialgeometrischen Flachen’,Comm. Math. Heh.3 (1931), 209–225.
Rham, G. De: ‘Sur la rdducibilitd d’un espace de Riemann’,Comm. Math. Heh.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 Crittenden, R.J.:Geometry of manifolds, Acad. Press, 1964.
Lumiste, U.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 Einfuhrung in die Lobatschewskische Geometrie, Deutsch. Verlag Wissenschaft., 1958 (translated from the Russian).
Efimov, N.V.:Hohere Geometrie, Deutsch. Verlag Wissen-schaft., 1960 (translated from the Russian).
Coxeter, H.S.M.:Introduction to geometry, Wiley, 1961.
Hopf, E.: ‘Statistik des geodatischen Linien in Manningfaltigkeiten negativer Krammung’,Ber. Verh. Sachs. 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 Einfuhrung 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 Wiirzeln mit negativen reellen Teilen besitzt’,Math. Ann.46 (1895), 273–284.
Hurwitz, A.: ‘Ueber die Bedingungen, unter welchen eine Gleichung nur Wiirzeln mit negativen reellen Teilen besitzt’, inMath. Werke, Vol. 2, BirkMuser, 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’, inSome problems in mathematics and mechanics, Leningrad, 1970, pp. 159–170 (in Russian).
Hormander, L.: ‘Fourier integral operators I’,Acta Math.127 (1971), 79–183.
Duistermaat, J.J. and Hormander, L.: ‘Fourier integral operators ll’,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 hydro-dynamics, 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 (inRussian).
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 hydro- and 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.
Flugge, 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 Integrate, Leipzig, 1884.
Berger, M.:Geometry, Springer, 1987, Chapt. 17 (translated from the French).
Coxeter, H.S.M.:Introduction to geometry, Wiley, 1961.
Jahnke, E., Emde, F. and Losch, F.:Tafeln hoheren 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. Ser., 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).
Stoilov, S.:The theory of functions of a complex variable, 1–2, Moscow, 1962 (in Russian; translated from the Rumanian).
Ahlfors, L.V.:Conformal 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.:Conformal 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).
Hormander, L.:The analysis of linear partial differential operators, II, Springer, 1983, Chapt. XII.
Hormander, L.:The analysis of linear partial differential operators, III, Springer, 1985, Chapt. XXIII.
Petrovskit, I.G.: ‘Ueber das Cauchysche Problem fur 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.
Oletnik, O.A.: ‘On the Cauchy problem for weakly hyperbolic equations’,Comm. Pure Appl. Math.23 (1970), 569–586.
Godunov, S.K. and Ryaben’kii;, 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.
Rozhdestvenskii, B.L. and Yanenko, N.N.: Systems of quasilinear equations and their applications to gas dynamics, Amer. Math. Soc., 1983 (translated from the Russian).
Samarskii, 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$15 (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$11 (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.
Samarskit, 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-variation-stable finite-difference schemes’,SIAM J. Numer. Anal.21 (1984), 1–23.
Blaschke, W. and Leichtweiss, K.:Elementare Differential-geometrie, Springer, 1973.
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 definiés 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 movement, Princeton Univ. Press, 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, Birkhauser, 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.: ‘Differentiable 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, Birkhauser, 1980, pp. 1–114.
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 Funktionentheorie in einer hyperkomplexen Algebra’,Elemente der Math.3, no. 5 (1948), 89–94.
Scheffers, G.: ‘Verallgemeinerung der Grundlagen der gewohnlich complexen Funktionen’,Ber. Verh. Sachs. Akad. Wiss. Leipzig Mat.-Phys. Kl.45 (1893), 828–848.
Hausdorff, F.: ‘Zur Theorie der Systeme complexer Zahlen’,Ber. Verh. Sachs. Akad. Wiss. Leipzig Mat.-Phys. Kl.52 (1900), 43–61.
Kristalinskii, R.KH.: ‘Pseudoregular 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’,Sugaku 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’, inSém. 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).
Lieberman, 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+(αß)/(1·γ)χ+⋯’,Comm. Soc. Regia Sci. Göttingen Rec.2 (1812).
Gauss, C.F.: ‘Disquisitiones generales circa seriem infinitam 1+(αß)/(1·γ)χ+⋯’, inWerke, Vol. 3, K. Gesellschaft Wissensch. Gottingen, 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: Losungsmethoden und Losungen, 1, Chelsea, reprint, 1971.
Golubev, V.V.:Vorlesungen iiber 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 I’,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 functions. The Gamma function. The hypergeometric function. Legendre functions, 1, McGraw-Hill, 1953.
Gradshtein, I.S. and Ryzhik, I.M.:Table of integrals, series and products, Acad. Press, 1980 (translated from the Russian).
Kummer, E.E.: ‘Ueber die hypergeometrische Reihe 1+αß/γ·1χ+⋯’,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: polynbmes 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 l’,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’algfebre homologique’,Tohoku Math J.9 (1957), 119–221.
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 halt 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.
Spivak, M.:Differential geometry, 1–5, Publish or Perish, 1975.
Carlson, J. and Griffiths, P.: ‘Infinitesimal variations of Hodge structure and the global Torelli problem’, in A. Beauville (ed.):Algebraic geometry, Angers 1979, Sijthoff amp; 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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Hazewinkel, M. (1989). H. In: Hazewinkel, M. (eds) Encyclopaedia of Mathematics. Soviet Mathematical Encyclopaedia, vol 4. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-5997-2_3
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DOI: https://doi.org/10.1007/978-94-009-5997-2_3
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