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Acta Mathematica, 1930, Volume 54
ISSN:
0001-5962 (Print)
1871-2509 (Online)
In this volume (13 articles)
Issue 1
[1] Ivar Fredholm
Nils Zeilon
TBD mathscidoc:1701.33734
Acta Mathematica, 54, (1), I-XVI, 1930.7
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[2] Über die Werteverteilung der Riemannschen Zetafunktion
Harald Bohr Kopenhagen Börge Jessen Kopenhagen
TBD mathscidoc:1701.33735
Acta Mathematica, 54, (1), 1-35, 1930.7
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[3] Sur certaines décompositions de la fonction complexe uniforme la plus générale
Maurice Fréchet Paris
TBD mathscidoc:1701.33736
Acta Mathematica, 54, (1), 37-79, 1930.7
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[4] A maximal theorem with function-theoretic applications
G. H. Hardy New College, Oxford J. E. Littlewood Trinity College, Cambridge
TBD mathscidoc:1701.33737
Acta Mathematica, 54, (1), 81-116, 1930.7
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1
Kurtz D S. Weighted norm inequalities for the Hardy-Little-wood maximal function for one parameter rectangles[J]. Studia Mathematica, 1975, 53(1): 39-54.
2
Stein E M, Wainger S. Problems in harmonic analysis related to curvature[J]. Bulletin of the American Mathematical Society, 1978, 84(6): 1239-1295.
3
Bansal N, Kimbrel T, Pruhs K, et al. Speed scaling to manage energy and temperature[J]. Journal of the ACM, 2007, 54(1).
4
Burkholder D L, Gundy R F. Extrapolation and interpolation of quasi-linear operators on martingales[J]. Acta Mathematica, 1970, 124(1): 249-304.
5
Nikhil Bansal · Tracy Kimbrel · Kirk Pruhs. Dynamic speed scaling to manage energy and temperature. 2004.
6
Isaac Meilijson · Arthur Nadas. Convex majorization with an application to the length of critical paths. 1979.
7
Burkholder D L. Martingales and Fourier analysis in Banach spaces[C]., 1986: 61-108.
8
Burkholder D L, Gundy R F, Silverstein M L, et al. A maximal function characterization of the class[J]. Transactions of the American Mathematical Society, 1971: 137-153.
9
Eric T Sawyer. Weighted inequalities for the one-sided Hardy-Littlewood maximal functions. 1986.
10
Zygmund A. On certain integrals[J]. Transactions of the American Mathematical Society, 1944, 55(2): 170-204.
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[5] Nichtlineare Integralgleichungen nebst Anwendungen
A. Hammerstein Berlin
TBD mathscidoc:1701.33738
Acta Mathematica, 54, (1), 117-176, 1930.7
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Kot M, Schaffer W M. Discrete-time growth-dispersal models[J]. Bellman Prize in Mathematical Biosciences, 1986, 80(1): 109-136.
2
Hunt K J, Munih M, Donaldson N D, et al. Investigation of the Hammerstein hypothesis in the modeling of electrically stimulated muscle[J]. IEEE Transactions on Biomedical Engineering, 1998, 45(8): 998-1009.
3
Dolph C L. Nonlinear integral equations of the Hammerstein type[J]. Transactions of the American Mathematical Society, 1949, 66(2): 289-307.
4
Lazer A C, Mckenna P J. On a conjecture related to the number of solutions of a nonlinear Dirichlet problem[J]. Proceedings of The Royal Society of Edinburgh Section A-mathematics, 1983: 275-283.
5
Felix E Browder · Chaitan P Gupta. Monotone operators and nonlinear integral equations of Hammerstein type. 1969.
6
Mawhin J. Periodic oscillations of forced pendulum-like equations[J]. Lecture Notes in Mathematics, 1982: 458-476.
7
Schiffer M, Hawley N S. Connections and conformal mapping[J]. Acta Mathematica, 1961: 175-274.
8
Browder F E. Nonlinear Functional Analysis and Nonlinear Integral Equations of Hammerstein and Urysohn Type[C]., 1971: 425-500.
9
Yee K S. Numerical solution of initial boundary value problems involving maxwell\u0027s equations in isotropic media[J]. IEEE Transactions on Antennas and Propagation, 1966, 14(3): 302-307.
10
Faugeras O, Veltz R, Grimbert F, et al. Persistent neural states: Stationary localized activity patterns in nonlinear continuous n-population, q-dimensional neural networks[J]. Neural Computation, 2009, 21(1): 147-187.
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[6] Über die Auflösung einer Singulären Integral-Gleichung
D. Enskog Gävle
TBD mathscidoc:1701.33739
Acta Mathematica, 54, (1), 177-184, 1930.7
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[7] Über Die Praktische Auflösung von Integralgleichungen mit Anwendungen auf Randwertaufgaben
E. J. Nyström Helsingfors
TBD mathscidoc:1701.33740
Acta Mathematica, 54, (1), 185-204, 1930.7
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[8] Formal theory of irregular linear difference equations
George D. Birkhoff Cambridge, Mass, USA
TBD mathscidoc:1701.33741
Acta Mathematica, 54, (1), 205-246, 1930.7
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1
Odlyzko A. Asymptotic enumeration methods[C]., 1996: 1063-1229.
2
Wimp J, Zeilberger D. Resurrecting the asymptotics of linear recurrences[J]. Journal of Mathematical Analysis and Applications, 1985, 111(1): 162-176.
3
Abramov S A, Barkatou M A. Rational solutions of first order linear difference systems[C]. international symposium on symbolic and algebraic computation, 1998: 124-131.
4
Wong R, Li H. Asymptotic expansions for second-order linear difference equations[J]. Journal of Computational and Applied Mathematics, 1992: 65-94.
5
Barkatou M A. Rational solutions of matrix difference equations: the problem of equivalence and factorization[C]. international symposium on symbolic and algebraic computation, 1999: 277-282.
6
Mallik R K. Solutions of linear difference equations with variable coefficients[J]. Journal of Mathematical Analysis and Applications, 1998, 222(1): 79-91.
7
Cluzeau T, Van Hoeij M. Computing Hypergeometric Solutions of Linear Recurrence Equations[J]. Applicable Algebra in Engineering, Communication and Computing, 2006, 17(2): 83-115.
8
Morse M. George David Birkhoff and his mathematical work[J]. Bulletin of the American Mathematical Society, 1946, 52(5): 357-391.
9
Wang Z, Wong R. Linear difference equations with transition points[J]. Mathematics of Computation, 2005, 74(250): 629-653.
10
Wong R, Li H. Asymptotic Expansions for Second‐Order Linear Difference Equations, II[J]. Studies in Applied Mathematics, 1992, 87(4): 289-324.
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[9] Remarques géométriques sur les enveloppes et la propagation des ondes
J. Hadamard Paris
TBD mathscidoc:1701.33742
Acta Mathematica, 54, (1), 247-261, 1930.7
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[10] Sur un développement des fonctions holomorphes
Gaston Julia Paris
TBD mathscidoc:1701.33743
Acta Mathematica, 54, (1), 263-295, 1930.7
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[11] Intervallfunktionen und Intervallkonstanten eines Beschränkten Symmetrischen Kerns
Johannes Mollerup Kopenhagen
TBD mathscidoc:1701.33744
Acta Mathematica, 54, (1), 297-319, 1930.7
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[12] Sur les fonctions subharmoniques et leur rapport à la théorie du potentiel
Frédéric Riesz Szeged
TBD mathscidoc:1701.33745
Acta Mathematica, 54, (1), 321-360, 1930.7
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[13] Bibliographie
TBD mathscidoc:1701.33746
Acta Mathematica, 54, (1), A1-A18, 1930.7
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Impact Factor
3.719
Available
1882 - 2016
Volumes
228
Issues
301
Articles
2167