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2004
93.- Conca C. et al.
eds., Partial Differential Equations and Inverse Problems, Pan-American
Advanced Studies Institute on Partial Differential Equations, Nonlinear Analysis
and Inverse Problems, Contemporary Mathematics362, American Mathematical
Society, Providence, Rhode Island (2004).
92.- C. Timofte and C. Conca, Interactive oscillation
sources in Signorini’s type problems, in Partial Differential Equations
and Inverse Problems, Proceedings from the Pan-American Advanced Studies Institute
on Partial Differential Equations, Nonlinear Analysis and Inverse Problems,
C.~Conca et al. eds., pp. 381--392, Contemporary Mathematics
362, American Mathematical Society, Providence, Rhode
Island (2004).
91.- C. Conca, J.I.
Díaz, A. Liñán, and C.Timofte, Homogenization in chemical
reactive flows, Electron. J. Diff. Eqns 2004(40), pp. 1-22
(2004).
2003
90.- C. Conca, R. Paredes, P. Ruz, R. Fuentes,
and M. Cruchaga, Numerical simulation of reverts smelting in a
Teniente Converter, from Proceedings of the Copper 2003. The 5th International
Conference-Volume IV (Book 2): Pyrometallurgy of Copper.
Hermann Schwarze Symposium, C. Díaz et al. eds., pp.
251-261, Santiago, Chile (2003).
89.- C. Conca, P. Ruz, R. Fuentes, R. Paredes, M. Rosales, and A.
Badillo, Accretion growth in metallic fluid media, from Proceedings of
the opper 2003. The 5th International Conference-Volume IV (Book 2):
Pyrometallurgy of Copper. Hermann Schwarze
Symposium, C. Díaz et al. eds., pp. 499-513, Santiago, Chile
(2003).
88.- C. Conca, J. San Martín,
F. Saouri, A. Benaddi, R. Fuentes, M. Rosales, and P. Ruz, Mathematical study
of a compressible fluid in a tuyere, from Proceedings of the Copper 2003.
The 5th International Conference-Volume IV (Book 2): Pyrometallurgy
of Copper. Hermann Schwarze Symposium, C. Díaz et al. eds., pp.515-528,
Santiago, Chile (2003).
87.- Conca C., Osses A. and Saint
Jean Paulin J., Approximate controllability and homogenization of a semilinear
elliptic problem, J. Math. Anal. Appl. 285(1),
pp. 17-36 (2003).
86.- Conca C., Murat F. and Timofte C., A generalized strange
term in Signorini’s type problems, RAIRO Modél. Math. Anal. Numer.
37 (5), pp. 773-805 (2003).
85.- Conca C., Díaz J.I. and Timofte C., Effective
chemical processes in porous media, Math. Models Methods Appl. Sci. 13
(10), pp. 1-26 (2003).
84.- Conca, C.; Natesan, S. Numerical methods for elliptic
partial differential equations with rapidly oscillating coefficients.
Comput. Methods Appl. Mech. Engrg. , 192
(1-2), pp.~47--76 (2003).
2002
83.-
Conca C. et al. eds., Current Developments in Partial Differential Equations,
special issue of Discrete and Continuous Dynamical Systems 8
(2), pp. 289-518, American Institute of Mathematical Sciences (2002).
82.- G. Allaire, C. Conca, Bloch wave homogenization and spectral
asymptotic analysis, en Homogenization and Applications to Material Sciences.
To the memory of Professor Jeannine Saint Jean Paulin, G. St. Balint et
al. eds., Timisoara (2002).
81.- C. Conca, M. Vanninathan. Fourier approach to homogenization
problems, ESAIM-COCV, Control, Optimisation and Calculus of Variations
8 (2002), special issue dedicated to the memory of Professor
J.L. Lions, 489-511.
80.- C. Conca, R. Gormaz, E. Ortega-Torres, M. Rojas-Medar,
The equations of non-homogeneous asymmetric fluids: An iterative approach,
Math. Methods Appl. Sci. 25 (2002), 1251-1280.
79.- Conca C.; Orive R.; Vanninathan
M. Bloch approximation in homogenization and applications,
SIAM J. Math. Anal. 33 (2002), no. 5, 1166 -1198.
78.- Conca C.;
Gormaz R.; Ortega-Torres E; Rojas-Medar M. Existence and uniqueness of a
strong solution for non-homogeneous micropolar fluids, in Nonlinear Partial
Differential Equations and their Applications, vol. XIV, D.~Cioranescu
et al. eds., 213 - 242, Studies in Mathematics and its Applications 31,
Elsevier Science B.V. Amsterdam À Boston À New York.
2001
77.- Conca C., Natesan S., and Vanninathan M., Numerical
solution of elliptic partial differential equations with rapidly oscillating
coefficients by Bloch wave method, en Proceedings of the 2nd International
Conference on Theoretical, Applied, Computational, and Experimental Mechanics
(ICTACEM 2001), Indian Institute of Technology (IIT), Paper
112, Kharagpur, India (2001).
76.- Conca C.; Vanninathan M. On uniform
H2-estimates in periodic homogenization.
Proc. Roy. Soc. Edinburgh Sect. A 131(2001), no. 3, 499-517.
75.- Baffico L.; Conca C. A mixing
procedure of two viscous fluids using some homogenization tools. Comput.
Methods Appl. Mech. Engrg.190 (2001), no. 32-33, 4245-4257.
74.- Conca C.; Osses A.; Saint Jean
Paulin J. A semilinear control problem involving homogenization. Proceedings
of the USA-Chile Workshop on Nonlinear Analysis (Viña del Mar-Valparaiso,
2000), 109-122 (electronic), Electron. J. Differ. Equ. Conf. 6,
Southwest Texas State Univ., San Marcos, TX, 2001.
73.- Conca C.; Natesan S.; Vanninathan
M. Numerical solution of elliptic partial differential equations by Bloch
waves method, in XVII CEDYA: Congress on Differential Equations and Applications/VII
CMA: Congress on Applied Mathematics, 63-83, 2001.
2000
72.- Conca C., Ortega J., Asymptotic behaviour in
RN for linear parabolic equations with periodical oscillating
coefficients, en Actas del 51no Seminario Brasileiro de Analise, J.
Santos Souza et al. eds., pp. 163-178, Universidad Federal de Santa Catarina
(2000).
71.- Conca C., Correctors in homogenization via Bloch decomposition,
en Proceedings of the International Workshop on Asymptotic and Numerical
Analysis of Structures and of Heterogeneous Media(ANASTHEM), G. Panasenko
et al. eds., pp. 46-50, Saint Petersburg State Technological University (2000).
70.- Baffico L.; Conca C.; Saint Jean
Paulin J. Existence results and asymptotic behavior of stationary displacements
of tubes in a Navier-Stokes flow. Rev. Roumaine Math. Pures Appl.
45 (2000), no. 1, 21-47.
69.- Conca C.; Rojas-Medar M. The
initial value problem for the Boussinesq equations in a time-dependent domain.
Rev. R. Acad. Cienc. Exactas Fís. Nat.(Esp.) 94
(2000), no. 1, 39-48.
68.- Conca C.; Saint
Jean Paulin J. Limiting behaviour of tube displacements in a Stokes flow.
Ricerche Mat. 48, no. 2,183-200 (2000).
67.- Conca C.; San Martín
J.; Tucsnak M. Existence of solutions for the equations modelling the motion
of a rigid body in a viscous fluid. Comm. Partial Differential Equations
25 (2000), no. 5-6, 1019-1042.
1999
66.- Conca C., Bloch waves, en Encyclopaedia of Mathematics
, M. Hazewinkel and R. Hoksbergen eds., Kluwer Academic Publishers, Amsterdam
(1999).
65.- Conca C.; Lund F. Fourier homogenization
method and the propagation of acoustic waves through a periodic vortex array.
SIAM J. Appl. Math. 59 (1999), no. 5, 1573-1581.
64.- Conca C.; Gómez D.; Lobo
M.; Pérez M. E. Homogenization of periodically perforate media. Indiana
Univ. Math. J. 48 (1999), no. 4, 1447-1470.
63.- Conca, C.; San Martín
J.; Tucsnak, M. Motion of a rigid body in a viscous fluid.
C. R. Acad. Sci. Paris Sér. I Math.
328 (1999), no. 6, 473-478.
62.- Baffico L.; Conca C. Homogenization
of a transmission problem in solid mechanics. J. Math. Anal. Appl. 233
(1999), no. 2, 659-680.
61.- Allaire G.; Conca C.; Vanninathan
M. Spectral asymptotics of the Helmholtz model in fluid-solid structures.
Fourth World Congress on Computational Mechanics (Buenos Aires, 1998). Internat.
J. Numer. Methods Engrg. 46 (1999), no. 9, 1463-1504.
60.- Allaire G.; Conca C.; Planchard
J. Erratum to: Homogenization and Bloch wave method for fluid tube bundle
interaction. Comput. Methods Appl. Mech. Engrg.
180 (1998), no. 1-2, 232.
1998
59.- Allaire G.; Conca C.; Planchard,
J. Homogenization and Bloch wave method for fluid tube bundle interaction.
Comput. Methods Appl. Mech. Engrg. 164(1998), no. 3-4,
333-361.
58.- Bonnetier E.;
Conca, C. Optimality conditions for a relaxed layout optimization problem.
C. R. Acad. Sci. Paris Sér. I Math.
327 (1998), no. 12, 1005-1010.
57.- Allaire G.; Conca C. Boundary
layers in the homogenization of a spectral problem in fluid-solid structures.
SIAM J. Math. Anal.29 (1998), no. 2, 343-379.
56.- Allaire G.; Conca C. Bloch wave
homogenization and spectral asymptotic analysis. J. Math. Pures Appl.
77 (1998), no. 2, 153-208.
55.- Conca C.; Osses A.; Planchard
J. Asymptotic analysis relating spectral models in fluid-solid vibrations.
SIAM J. Numer. Anal.35 (1998), no. 3, 1020-1048.
54.- Conca C.; Durán M.; Rappaz
J. Rate of convergence estimates for the spectral approximation of a generalized
eigenvalue problem. Numer. Math. 79(1998), no. 3, 349-369.
1997
53.- Baffico L., Conca C., Homogenization of a transmission
problem in 2D elasticity, en Computational Science for the 21st Century,
in honor of Professor R. Glowinski, M-O. Bristeau et al. eds., pp. 539-548,
J.Wiley, Paris (1997).
52.- Conca C.; Osses A.; Planchard,
J. Added mass and damping in fluid-structure interaction. Comput. Methods
Appl. Mech. Engrg. 146 (1997), no. 3-4, 387-405.
51.- Conca C.; Davila J. Optimal
bounds for mixtures of infinitely many materials. Numerical methods in mechanics
(Concepción, 1995), 59-69, Pitman Res. Notes Math. Ser. 371,
Longman, Harlow, 1997.
50.- Conca C.; Vanninathan M. Homogenization
of periodic structures via Bloch decomposition.
SIAM J. Appl. Math. 57 (1997), no. 6, 1639-1659.
49.- Allaire G.; Conca C.; Vanninathan
M. The Bloch transform and applications. Actes du 29ème Congrès
d’Analyse Numérique: CANum’97 (Larnas, 1997), 65-84.
48.- Conca C.; Gatica G. eds., Numerical
Methods in Mechanics. Papers from the 4th French Latin-American Congress on
Applied Mathematics held at the University of Concepción, Concepción,
December 11-15, 1995. Pitman Research Notes in Mathematics Series
371. Longman, Harlow, 1997.
1996
47.- Allaire G.; Conca C. Bloch-wave
homogenization for a spectral problem in fluid-solid structures. Arch.
Rational Mech. Anal. 135 (1996), no. 3, 197-257.
1995
46.- Allaire G.; Conca C. Analyse
asymptotique spectrale de l’équation des ondes. Homogénéisation
par ondes de Bloch. C. R. Acad. Sci. Paris Sér. I Math. 321
(1995), no. 3, 293-298.
45.- Allaire G.; Conca C. Analyse
asymptotique spectrale de l’équation des ondes. Complétude du
spectre de Bloch. C. R. Acad. Sci. Paris Sér. I Math. 321
(1995), no. 5, 557-562.
44.- Conca C.; Planchard J.; Vanninathan,
M. Fluids and periodic structures. RAM: Research in Applied Mathematics
38. John Wiley & Sons, Ltd., Chichester; Masson, Paris,
1995.
43.- Conca C.; Parés C.; Pironneau
O.; Thiriet M. Navier-Stokes equations with imposed pressure and velocity
fluxes. Internat. J. Numer. Methods Fluids 20
(1995), no. 4, 267-287.
42.- Conca, Carlos; Durán,
Mario. A numerical study of a spectral problem in solid-fluid type structures.
Numer. Methods Partial Differential Equations 11 (1995),
no. 4, 423-444.
1994
41.- Conca C.; Murat F.; Pironneau
O. The Stokes and Navier-Stokes equations with boundary conditions involving
the pressure. Japan. J. Math.20 (1994), no. 2, 279-318.
40.- Conca C.; Donato P. Existence
results for a nonlinear problem modeling the displacement of a solid in a
transverse flow. RAIRO Modél. Math. Anal. Numér.
28 (1994), no. 5, 539-556.
39.- Bonnetier E.; Conca C. Approximation
of Young measures by functions and application to a problem of optimal design
for plates with variable thickness. Proc. Roy. Soc. Edinburgh Sect. A
124 (1994), no. 3, 399-422.
38.- Conca C.; Zuazua E. Asymptotic
analysis of a multidimensional vibrating structure.
SIAM J. Math. Anal. 25 (1994), no. 3, 836-858.
37.- Conca C.
Spectral problems in fluid-solid structures. Recent advances in partial differential
equations (El Escorial, 1992), 19-35, RAM Res. Appl. Math.
30, Masson, Paris, 1994.
36.- Conca C.; Durán M.; Planchard,
J. The Bloch wave method and vibrations of elastic cylinder arrays in a fluid.
J. Sound Vibration 170 (1994), no. 4, 473-493.
35.- Conca, C.; Planchard, J.; Thomas,
B.; Vanninathan M. Problèmes Mathématiques en Couplage Fluide
Structure. Applications aux Faisceaux Tubulaires, Eyrolles,Paris 1994.
1993
34.- Conca C.; Puschmann H. Hermitian
quadratic eigenvalue problems of restricted rank.
Appl. Math. Lett. 6 (1993), no. 6, 9-13.
33.- Conca C.; Zuazua E. Asymptotic
analysis of a multidimensional plate-beam model. Asymptotic methods for
elastic structures (Lisbon, 1993), 275-291.
32.- Bonnetier E.; Conca C. Relaxation
totale d’un problème d’optimisation de plaques.
C. R. Acad. Sci. Paris Sér. I Math.
317 (1993), no. 10, 931-936.
31.- Conca C.; Planchard J.; Vanninathan
M. Limiting behaviour of a spectral problem in fluid-solid structures.
Asymptotic Anal. 6 (1993), no. 4, 365-389.
30.- Conca C.; Planchard J.; Vanninathan
M. Resonance frequencies of a cavity containing a compressible viscous fluid.
Math. Methods Appl. Sci. 16 (1993), no. 3, 185-202.
1992
29.- Conca C., Planchard J. and Thomas B., Limiting behaviour
of the spectrum of large elastic tube arrays in a fluid, en Numerical
Methods in Engineering and Applied Sciences, Part I, H. Alder et al.
eds., pp. 128-136, CIMNE Publications, Barcelona (1992).
28.- Conca C.; Duran M.; Planchard
J. A bound for the number of nonreal solutions of a quadratic eigenvalue
problem. Adv. Math. Sci. Appl. 1 (1992), no. 2, 229-249.
27.- Conca C.;
Duran M.; Planchard J. A quadratic eigenvalue problem involving Stokes equations.
Comput. Methods Appl. Mech. Engrg. 100 (1992),
no. 3, 295-313.
1991
26.- Conca C. Bloch decomposition
of an eigenvalue problem involving Helmholtz equation. Mathématiques
Appliquées aux Sciences de l’Ingénieur (Santiago, 1989),
155-164.
25.- C. Conca,
R. Correa and J.-P. Puel. Mathématiques appliquées aux sciences
de l’ingénieur. Cépaduès Éditions, Toulouse,
1991.
24.- Conca C.; Durán M.; Planchard
J. Ondes de Bloch et vibrations de faisceaux de tubes immergés. EDF
Bull. Direction Études Rech. Sér. C Math. Inform.(1991),
no. 2, iv, 119-138.
23.- Conca C.; Durán M.; Levet,
L. Resultados numéricos en un modelo de lavado de una resina macroporosa.
Rev. Internac. Métod. Numér. Cálc. Diseñ.
Ingr. 7 (1991), 139-161.
1990
22.- F. Aguirre, Conca C., J. Planchard and M. Vanninathan,
Added mass and eigenfrequencies of large tube bundles in a fluid, en Proceedings
of the 2nd World Congress on Computational Mechanics, I.A.C.M. eds.,
pp. 499-502, Stuttgart (1990).
21.- Conca C.; Planchard J.; Vanninathan
M. Limits of the resonance spectrum of tube arrays immersed in a fluid. J.
Fluids Structures 4 (1990), 541-558.
1989
20.- Conca C.; Planchard J.; Vanninathan
M. Un problème de frequences propres en couplage fluide-structure.
Proceedings of the Eighth International Conference on Computing Methods in
Applied Sciences and Engineering (Versailles, 1987).
Comput. Methods Appl. Mech. Engrg. 75(1989), no. 1-3,
27-37.
19.- Conca C.; Sepúlveda M.
Numerical results in the Stokes sieve problem. Rev. Internac. Métod.
Numér. Cálc. Diseñ. Ingr. 5(1989), no. 4,
435-452.
18.- Conca C.; Planchard J.; Vanninathan
M. Sur les bornes du spectre de résonance des faisceaux tubulaires
immergés dans un fluide. EDF Bull. Direction Études Rech.
Sér. C Math. Inform. (1989), no. 3, iii, 1-20.
17.- Conca C.; Planchard J.; Vanninathan
M. Existence and location of eigenvalues for fluid-solid structures.
Comput. Methods Appl. Mech. Engrg. 77 (1989), no. 3,
253-291.
16.- Conca C. Stokes equations with
nonsmooth data. Rev. Mat. Apl. 10 (1989), no. 2, 115-122.
1988
15.- Bègue C.; Conca C.; Murat
F.; Pironneau O. Les équations de Stokes et de Navier-Stokes avec des
conditions aux limites sur la pression. Nonlinear partial differential equations
and their applications. Collège de France Seminar, Vol. IX (Paris,
1985-1986), 179-264, Pitman Res. Notes Math. Ser. 181, Longman
Sci. Tech., Harlow, 1988.
14.- Conca C.; Vanninathan M. A spectral
problem arising in fluid-solid structures. Comput.
Methods Appl. Mech. Engrg. 69 (1988), no. 2, 215-242.
13.- Conca C.;
Donato P. Nonhomogeneous Neumann problems in domains with small holes.
RAIRO Modél. Math. Anal. Numér.
22 (1988), no. 4, 561-607.
12.- Aguirre F.; Conca C. Eigenfrequencies
of a tube bundle immersed in a fluid. Appl. Math. Optim. 18
(1988), no. 1, 1-38.
11.- Conca C.
The Stokes sieve problem. Comm. Appl. Numer. Methods 4 (1988), 113-121.
1987
10.- Conca C. Étude d’un fluide
traversant une paroi perforée. II. Comportement limite loin de la paroi.
J. Math. Pures Appl. 66 (1987), no. 1, 45-70.
9.- Conca C.
Étude d’un fluide traversant une paroi perforée. I. Comportement
limite près de la paroi. J. Math. Pures Appl. 66 (1987),
no. 1, 1-43.
8.- Bègue C.; Conca C.; Murat
F.; Pironneau O. À nouveau sur les équations de Stokes et de
Navier-Stokes avec des conditions aux limites sur la pression.
C. R. Acad. Sci. Paris Sér. I Math.
304 (1987), no. 1, 23-28.
1986
7.- Conca C. Introducción
a la teoría de la homogeneización. Epsilon 6-7 (1986),
9-15.
1985
6.- Conca C. On the application of
the homogenization theory to a class of problems arising in fluid mechanics.
J. Math. Pures Appl. 64 (1985), no. 1, 31-75.
5.- Conca C. Numerical results on
the homogenization of Stokes and Navier-Stokes equations modeling a class
of problems from fluid mechanics. Comput. Methods Appl. Mech. Engrg. 53
(1985), no. 3, 223-258.
4.- Conca C.
Mathematical modeling of the steam-water condensation in a condenser. Large-scale
computations in fluid mechanics, Part 1 (La Jolla, Calif., 1983), 87-98,
Lectures in Appl. Math. 22-1, Amer. Math.
Soc., Providence, RI, 1985.
1984
3.- Conca C. Approximation de quelques
problèmes de type Stokes par une méthode d’éléments
finis mixtes. Numer. Math. 45 (1984), no. 1, 75-91.
1983
2.- Conca, C., Steer D. Résolution des équations
bidimensionelles de Navier-Stokes pour un fluide incompressible et visqueux
en régime stationnaire, en Proceedings from the Anual Modulef’s
Symposium, P. Regis et al. eds., Versailles (1983).
1.- Conca C. Homogénéisation
des équations de Stokes et de Navier-Stokes dans des domaines perforés
périodiquement avec des conditions aux limites de type Fourier. C.
R. Acad. Sci. Paris Sér. I Math. 297 (1983), no. 4, 249-252.
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