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References
[ACJ 96] R. Abeyaratne, C. Chu and R.D. James, Kinetics of materials with wiggly energies: theory and application to the evolution of twinning microstructures in a Cu−Al−Ni shape-memory alloy, Phil. Mag. A 73 (1996), 457–497.
[AF 84] E. Acerbi and N. Fusco, Semicontinuity problems in the calculus of variations, Arch. Rat. Mech. Anal. 86 (1984), 125–145.
[AF 88] E. Acerbi and N. Fusco, An approximation lemma for W 1,p functions, in: Material instabilities in continuum mechanics and related mathematical problems (J. M. Ball, Ed.), Oxford Univ. Press, 1988, 1–5.
[AMM 98] G. Airoldi, I. Müller, S. Miyazaki (eds.), Shape-memory alloys: from microstructure properties, Trans Tech Pub., in press, 1998.
[AM 97] G. Alberti and S. Müller, in preparation.
[AD 92] J.J. Alibert and B. Dacorogna, An example of a quasiconvex function not polyconvex in dimension two, Arch. Rat. Mech. Anal. 117 (1992), 155–166.
[Al 92] G. Allaire, Homogenization and two-scale convergence, SIAM J. Math. Anal. 23 (1992), 1482–1518.
[Al 72] W.K. Allard, On the first variation of a varifold, Ann. Math. 95 (1972), 417–491.
[Al 66] F. J. Almgren, Plateau's problem: an invitation to varifold geometry, Benjamin, 1966.
[ABF 96] L. Ambrosio, G. Buttazzo and I. Fonseca, Lower semicontinuity problems in Sobolev spaces with respect to a measure, J. Math. Pures Appl. 75 (1996), 211–224.
[AH 86] R. Aumann and S. Hart, Bi-convexity and bi-martingales, Israel J. Math. 54 (1986), 159–180.
[Ba 84] E.J. Balder, A general approach to lower semicontinuity and lower closure in optimal control theory, SIAM J. Control and Optimization 22 (1984), 570–598.
[Ba 77] J.M. Ball, Convexity conditions and existence theorems in nonlinear elasticity, Arch. Rat. Mech. Anal. 63 (1977), 337–403.
[Ba 87] J.M. Ball, Does rank one convexity imply quasiconvexity?, in: Metastability and incompletely posed problems, IMA Vol. Math. Appl. 3 (S.S. Antman, J.L. Ericksen, D. Kinderlehrer and I. Müller, eds.), Springer, 1987.
[Ba 89] J.M. Ball, A version of the fundamental theorem for Young measures, in: PDE's and Continuum Models of Phase Transitions (M. Rascle, D. Serre, M. Slemrod, eds.), Lecture Notes in Physics 344, Springer, 1989, 207–215.
[Ba 90a] J.M. Ball, Dynamics and minimizing sequences, in: Problems involving change of type (K. Kirchgässner, ed.), Lecture Notes in Physics 359, Springer, 1990, 3–16.
[Ba 90b] J.M. Ball, Sets of gradients with no rank one connections, J. Math. Pures Appl. 69 (1990), 241–259.
[BCJ 95] J.M. Ball, C. Chu and R.D. James, Hysteresis in martensite phase transformations, in: Proc. ICOMAT-95, J. de physique IV 5, colloque C8, 245–251.
[BHJPS 91] J.M. Ball, P.J. Holmes, R.D. James, R.L. Pego and P.J. Swart, On the dynamics of fine structure, J. Nonlin. Sci. 1 (1991), 17–70.
[BJ 87] J.M. Ball and R.D. James, Fine phase mixtures as minimizers of energy, Arch. Rat. Mech. Anal. 100 (1987), 13–52.
[BJ 92] J.M. Ball and R.D. James, Proposed experimental tests of a theory of fine microstructure and the two-well problem, Phil. Trans. Roy. Soc. London A 338 (1992), 389–450.
[BJ 94] J.M. Ball and R.D. James, The mathematics of microstructure, DMV-Seminar (unpublished lectures).
[BJ 97] J.M. Ball and R.D. James, book in preparation.
[BMa 84] J.M. Ball and J.E. Marsden, Quasiconvexity at the boundary, positivity of second variation and elastic stability, Arch. Rat. Mech. Anal. 86 (1984), 251–277.
[BM 84] J.M. Ball and F. Murat, W 1,p-quasiconvexity and variational problems for multiple integrals, J. Funct. Anal. 58 (1984), 225–253.
[BKK 98] J.M. Ball, B. Kirchheim and J. Kristensen, in preparation.
[BF 94] A.C. Barroso and I. Fonseca, Anisotropic singular perturbations—the vectorial case, Proc. Roy. Soc. Edinburgh 124A (1994), 527–571.
[BL 73] H. Berliocchi and J.M. Lasry, Intégrandes normales et mesures paramétrées en calcul des variations, Bull. Soc. Math. France 101 (1973), 129–184.
[Bh 91] K. Bhattacharya, Wedge-like microstructure in martensites, Acta metall. 39 (1991), 2431–2444.
[Bh 92] K. Bhattacharya, Self-accommodation in martensite, Arch. Rat. Mech. Anal. 120 (1992), 201–244.
[Bh 93] K. Bhattacharya, Comparison of geometrically nonlinear and linear theories of martensitic transformation, Cont. Mech. Thermodyn. 5 (1993), 205–242.
[BFJK 94] K. Bhattacharya, N. Firoozye, R.D. James and R.V. Kohn, Rcstrictions on microstructure, Proc. Roy. Soc. Edinburgh, 124A (1994), 843–878.
[BhJ 97] K. Bhattacharya and R.D. James, A theory of thin films of martensite materials with applications to microactuators, to appear in J. Mech. Phys. Solids.
[BK 96] K. Bhattacharya and R.V. Kohn, Symmetry, texture and the recoverable strain of shape-memory polycrystals, Acta mater. 44 (1996), 529–542.
[BK97] K. Bhattacharya and R.V. Kohn, Elastic energy minimization and the recoverable strains of polycristalline shape memory materials, Arch. Rat. Mech. Anal. 139 (1997), 99–180.
[BP 61] E. Bishop and R. R. Phelps, A proof that all Banach spaces are subreflexive, Bull. Amer. Math. Soc. 67 (1961), 97–98.
[Bo 90] G. Bouchitté, Singular perturbations of variational problems arising from a two phases transition model, J. Appl. Math. Opt. 21 (1990), 289–314.
[BFM 97] G. Bouchitté, I. Fonseca and L. Mascarenhas, A global method for relaxation, preprint.
[BM 54] J.S. Bowles and J.K. Mackanzie, The crystallography of martensite transformations, I and II, Acta Met. 2 (1954), 129–137, 138–147.
[Br 94] M. Brokate et al., Phase transitions and hysteresis, LNM 1584, Springer, 1994.
[BS 96] M. Brokate and J. Sprekels, Hysteresis and phase transitions, Springer, 1996.
[Br 63] W.F. Brown, Micromagnetics, Wiley, 1963.
[Br 66] W.F. Brown, Magnetoelastic interactions, Springer Tracts in Natural Philosophy 9 (C. Truesdell, ed.), Springer, 1966.
[BRL 97] O. Bruno, F. Reitich and P. Leo, The overall elastic energy of polycristalline martensite solids, submitted to J. Mech. Phys. Solids.
[CP 97] C. Carstensen and P. Plecháč, Numerical solution of the scalar double-well problem allowing microstructure, Math. Comp. 66 (1997), 997–1026.
[CT 93] E. Casadio-Tarabusi, An algebraic characterization of quasiconvex functions, Ricerche Mat. 42 (1993), 11–24.
[CPe 97] P. Celada and S. Perrotta, Functions with prescribed singular values of the gradient, preprint SISSA 56/97/M, 1997.
[CP 95] A. Cellina and S. Perrotta, On a problem of potential wells, J. convex anal. 2 (1995), 103–115.
[CK 97a] A. Cherkaev, R.V. Kohn (eds.), Topics in the mathematical modelling of composites, Birkhäuser, 1997.
[CK 88] M. Chipot and D. Kinderlehrer Equilibrium configurations of crystals, Arch. Rat. Mech. Anal. 103 (1988), 237–277.
[CK 97b] R. Choksi and R.V. Kohn, Bounds on the micromagnetic energy of a uniaxial ferromagnet, preprint.
[CKO 97] R. Choksi, R.V. Kohn and F. Otto, in preparation.
[Ch 93] C. Chu, Hysteresis and microstructure: a study of biaxial loading on compound twins of copper-aluminium-nickel single crystals, Ph.D. thesis, University of Minnesota, 1993.
[CJ 95] C. Chu and R.D. James, Analysis of microstructures in Cu-14% Al-3.9% Ni by energy minimization, in: Proc. ICOMAT-95, J. de physique IV 5, colloque C8, 143–149.
[Da 81] B. Dacorogna, A relaxation theorem and its applications to the equilibrium of gases, Arch. Rat. Mech. Anal. 77 (1981), 359–386.
[Da 82a] B. Dacorogna, Quasiconvexity and the relaxation of non convex variational problems, J. Funct. Anal. 46 (1982), 102–118.
[Da 82b] B. Dacorogna, Weak continuity and weak lower semicontinuity of non-linear functionals, Springer LNM 922, Springer, 1982.
[Da 89] B. Dacorogna, Direct methods in the calculus of variations, Springer, 1989.
[DM 88] B. Dacorogna and P. Marcellini, A counterexample in the vectorial calculus of variations, in: Material instabilities in continuum mechanics and related mathematical problems (J.M. Ball, ed.), Oxford Univ. Press, 1988, 77–83.
[DM 96a] B. Dacorogna and P. Marcellini, Théorèmes d'existence dans les cas scalaire et vectoriel pour les équations de Hamilton-Jacobi, C.R.A.S. Paris 322 (1996), Serie I, 237–240.
[DM 96b] B. Dacorogna and P. Marcellini, Sur le problème de Cauchy-Dirichlet pour les systèmes d'équations non linéaires du premier ordre, C.R.A.S. Paris 323 (1996), Serie I, 599–602.
[DM 97] B. Dacorogna and P. Marcellini, General existence theorems for Hamilton-Jacobi equations in the scalar and vectorial cases, Acta Math. 178 (1997), 1–37.
[DM 93] G. Dal Maso, An introduction to Γ-convergence, Birkhäuser, 1993.
[De 96] S. Demoulini, Young measure solutions for a nonlinear parabolic equation of forward-backward type, SIAM J. Math. Anal. 27 (1996), 378–403.
[DG 75] E. De Giorgi, Sulla convergenza di alcune successioni di integrali del tipo dell'area, Rend. Mat. 8 (1975), 277–294.
[DGF 75] E. De Giorgi and T. Franzoni, Su un tipo di convergenze variationale, Atti Accad. Naz. Lincei Rend. Cl. Sci. Fis. Mat. Natur 58 (1975), 842–850.
[DS 93] A. DeSimone, Energy minimizers for large ferromagnetic bodies, Arch. Rat. Mech. Anal. 125 (1993), 99–143.
[DP 85] R.J. DiPerna, Compensated compactness and general systems of conversation laws, Trans. Amer. Math. Soc. 292 (1985), 383–420.
[DPM 87] R.J. DiPerna and A.J. Majda, Oscillations and concentrations in weak solutions of the incompressible fluid equations, Comm. Math. Phys. 108 (1987), 667–689.
[Do 97] G. Dolzmann, Numerical computations of rank-one convex envelopes, preprint.
[DM 95] G. Dolzmann and S. Müller, Microstructures with finite surface energy: the two-well problem, Arch. Rat. Mech. Anal. 132 (1995), 101–141.
[E 92] Weinan E, Homogenization of linear and nonlinear transport equations, Comm. Pure Appl. Math. 45 (1992), 301–326.
[Ed 65] R.E. Edwards, Functional analysis, Holt, Rinehart and Winston, 1965.
[Ek 79] I. Ekeland, Nonconvex minimation problems, Bull. Amer. Math. Soc. 1 (1979), 443–474.
[Er 75] J.L. Ericksen, Equilibrium of bars, J. Elasticity 5 (1975), 191–201.
[Er 77] J.L. Ericksen, Special topics in nonlinear elastostatics, in: Advances in applied mechanics 17 (C.-S. Yih, ed.), Academic Press, 1977, 189–244.
[Er 79] J.R. Ericksen, On the symmetry of deformable elastic crystals, Arch. Rat. Mech. Anal. 72 (1979), 1–13.
[Er 80] J.L. Ericksen, Some phase transitions in elastic crystals, Arch. Rat. Mech. Anal. 73 (1980), 99–124.
[Er 84] J.L. Ericksen, The Cauchy and Born hypothesis for crystals, in: Phase transformations and material instabilities in solids (M.E. Gurtin, ed.), Academic Press, 1984, 61–77.
[Er 89] J.L. Ericksen, Weak martensitic transformations in Bravais lattices, Arch. Rat. Mech. Anal. 107 (1989), 23–36.
[Es 57] J.D. Eshelby, The determination of the elastic field of an ellipsoidal inclusion, and related problems, Proc. Roy. Soc. London A 241 (1957), 376–396.
[Es 59] J.D. Eshelby, The elastic field outside an ellipsoidal inclusion, Proc. Roy. Soc. London A 252 (1959), 561–569.
[Es 61] J.D. Eshelby, Elastic inclusions and inhomogenities, in: Progress in Solid Mechanics vol. II, North-Holland, 1961, 87–140.
[Ev 86] L.C. Evans, Quasiconvexity and partial regularity in the calculus of variations, Arch. Rat. Mech. Anal. 95 (1986), 227–252.
[Ev 90] L.C. Evans, Weak convergence methods for nonlinear partial differential equations, Am. Math. Soc., Providence, 1990.
[EG 87] L.C. Evans and R. Gariepy, Blow-up, compactness and partial regularity in the calculus of variations, Indiana Univ. Math. J. 36 (1987), 361–371.
[EG 92] L.C. Evans and R. Gariepy, Measure theory and fine properties of functions, CRC Press, 1992.
[FF 60] H. Federer and W.H. Fleming, Normal and integral currents, Ann. Math. 72 (1960), 458–520.
[Fe 69] H. Federer, Geometric measure theory, Springer, 1969.
[Fo 87] I. Fonseca, Variational methods for elastic crystals, Arch. Rat. Mech. Anal. 97 (1987), 189–220.
[Fo 88] I. Fonseca, The lower quasiconvex envelope of the stored energy function for an elastic crystal, J. Math. Pures Appl. 67 (1988), 175–195.
[Fo 89] I. Fonseca, Phase transitions of elastic solid materials, Arch. Rat. Mech. Anal. 107 (1989), 195–223.
[Fo 96] I. Fonseca, Variational techniques for problems in materials science, in: Variational methods for discontinuous structures, (R. Serapioni and F. Tomarelli, eds.), Birkhäuser, 1996, 161–175.
[FBS 94] I. Fonseca, D. Brandon and P. Swart, Dynamics and oscillatory microstructure in a model of displacive phase transformations, in: Progress in partial differential equations, the Metz surveys 3 (M. Chipot, ed.), Pitman, 1994, 130–144.
[FM 97] I. Fonseca and S. Müller, A-quasiconvexity, lower semicontinuity and Young measures, in preparation.
[FMP 97] I. Fonseca, S. Müller and P. Pedregal, Analysis of concentration and oscillation effects generated by gradients, to appear in SIAM J. Math. Anal.
[FT 89] I. Fonseca and L. Tartar, The gradient theory of phase transitions for systems with two potential wells, Proc. Roy. Soc. Edinburgh 111 A (1989), 89–102.
[FM 96] G. Friesecke and J.B. McLeod, Dynamics as a mechanism preventing the formation of finer and finer microstructure, Arch. Rat. Mech. Anal. 133 (1996), 199–247.
[FH 85] N. Fusco and J. Hutchinson, Partial regularity of functions minimizing quasiconvex integrals, manuscripta math. 54 (1985), 121–143.
[Ge 90] P. Gérard, Mesures semi-classique et ondes de Bloch, in: Equations aux dérivées partielles, exposé XVI, seminaire 1990–91, Ecole Polytechnique, Palaiseau.
[Ge 91] P. Gérard, Microlocal defect measures, Comm. PDE 16 (1991), 1761–1794.
[GM 86] M. Giaquinta and G. Modica, Partial regularity of minimizers of quasiconvex integrals, Ann. IHP Analyse non linéaire 3 (1986), 185–208.
[GMS 89] M. Giaquinta, G. Modica and J. Souček, Cartesian currents, weak diffeomorphisms and nonlinear elasticity, Arch. Rat. Mech. Anal. 106 (1989), 97–159; erratum 109 (1990), 385–392.
[GMS 96] M. Giaquinta, G. Modica and J. Souček, Cartesian currents in the calculus of variations, part I, preprint, 1996.
[Gr 86] M. Gromov, Partial differential relations, Springer, 1986.
[Gu 83] M.E. Gurtin, Two-phase deformations in elastic solids, Arch. Rat. Mech. Anal. 84 (1983), 1–29.
[Gu 87] M.E. Gurtin, Some results and conjectures in the gradient theory of phase transitions, in: Metastability and Incompletely Posed Problems (S.S. Antman, ed.), Springer, 1987, 135–146.
[Ha 97] K. Hane, Microstructures in thermoelastic martensites, Ph.D. thesis, University of Minnesota, 1997.
[HR 94] K.-H. Hoffmann and T. Roubíček, Optimal control of a fine structure, Appl. Math. Optim. 30 (1994), 113–126.
[Hu 67] A. Hubert, Zur Theorie der zweiphasigen Domänenstrukturen in Supraleitern und Ferromagneten, Phys. status solidi 24 (1967), 669–682.
[Hu 88] F. Hüssenov, Continuity of quasiconvex functions and theorem on quasiconvexification, Izv. Akad. Nauk Azerbaidzhan SSR Ser. Fiz.-Tekhn. Mat. Nauk 8 (1988), 17–23.
[Hu 95] F. Hüsseinov, Weierstrass condition for the general basic variational problem, Proc. Roy. Soc. Edinburgh 125 A (1995), 801–806.
[HM 93] Y. Huo and I. Müller, Nonequilibrium thermodynamics and pseudoelasticity, Cont. Mech. Thermodyn. 5 (1993), 163–204.
[IT 69] A. & C. Ionescu Tulcea, Topics in the theory of liftings, Springer, 1969.
[Ja 81] R.D. James, Finite deformation by mechanical twinning, Arch. Rat. Mech. Anal. 77 (1981), 143–176.
[JK 89] R.D. James and D. Kinderlehrer, Theory of diffusionless phase transitions, in: PDEs and continuum model of phase transitions (M. Rascle, D. Serre and M. Slemrod, eds.), Lecture Notes in Physics 344, Springer, 1989.
[JK 90] R.D. James and D. Kinderlehrer, Frustration in ferromagnetic materials, Cont. Mech. Thermodyn. 2 (1990), 215–239.
[JK 93] R.D. James and D. Kinderlehrer, Theory of magnetostriction with applications to Tb x Dy 1−x Fe 2, Phil. Mag. B 68 (1993), 237–274.
[JW 97] R.D. James and M. Wuttig, Magnetostriction of martensite, to appear in Phil. Mag. A.
[JO 90] M. Jodeit and P.J. Olver, On the equation graff=M gradg, Proc. Roy. Soc. Edinburgh 116 A (1990), 341–358.
[Jo 83] J.L. Joly, Sur la propagation des oscillations per un système hyperbolique en dimension 1, C.R.A.S. Paris 296 (1983), 669–672.
[JMR 95] J.L. Joly, G. Métivier, J. Rauch, Trilinear compensated compactness and nonlinear geometric optics, Ann. Math. 142 (1995), 121–169.
[Kh 67] A. Khachaturyan, Some questions concerning the theory of phase transformations in solids, Soviet Physics-Solid State 8 (1967), 2163–2168.
[Kh 83] A. Khachaturyan, Theory of structural transformations in solids, Wiley, 1983.
[KSh 69] A. Khachaturyan and G. Shatalov, Theory of macroscopic periodicity for a phase transition in the solid state, Soviet Physics JETP 29 (1969), 557–561.
[Ki 88] D. Kinderlehrer, Remarks about equilibrium configurations of crystals, in: Material instabilities in continuum mechanics and related mathematical problems (J.M. Ball, ed.), Oxford Univ. Press, 1988, 217–242.
[Kin 97] D. Kinderlehrer, Metastability and hysteresis in active materials, submitted to: Mathematics and control in smart structures (V.K. Vardan and J. Chandra, eds.), 1997.
[KP 91] D. Kinderlehrer and P. Pedregal, Characterization of Young measures generated by gradients, Arch. Rat. Mech. Anal. 115 (1991), 329–365.
[KP 94] D. Kinderlehrer and P. Pedregal, Gradient Young measure generated by sequences in Sobolev spaces, J. Geom. Analysis 4 (1994), 59–90.
[Ki 97] B. Kirchheim, in preparation.
[KL 71] B. Klosowicz and K.A. Lurie, On the optimal nonhomogeneity of a torsional elastic bar, Arch. Mech. 24 (1971), 239–249.
[Ko 89] R.V. Kohn, The relationship between linear and nonlinear variational models of coherent phase transitions, in: Trans. 7th Army Conf. on applied mathematics and computing, (F. Dressel, ed.), 1989.
[KM 92] R.V. Kohn and S. Müller, Branching of twins near an austenite/twinned-martensite interface, Phil. Mag. A 66 (1992), 697–715.
[KM 94] R.V. Kohn and S. Müller, Surface energy and microstructure in coherent phase transitions, Comm. Pure Appl. Math. 47 (1994), 405–435.
[KS 89] R.V. Kohn and P. Sternberg, Local minimimisers and singular perturbations, Proc. Roy. Soc. Edinburgh 111A (1989), 69–84.
[KP 89] M.A. Krasnosel'skiî and A.V. Pokrovskiî, Systems with hysteresis, Springer, 1989.
[Kr 94] J. Kristensen, Finite functionals and Young measures generated by gradients of Sobolev functions, Ph.D. Thesis, Technical University of Denmark, Lyngby.
[Kr 97a] J. Kristensen, On the non-locality of quasiconvexity, to appear in Ann. IHP Anal. non linéaire.
[Kr 97b] J. Kristensen, Lower semicontinuity in spaces of weakly differentiable functions, preprint.
[Kr 97] M. Kružik, On the composition of quasiconvex functions and the transposition, preprint 1997.
[Ku 55] N.H. Kuiper, On C 1 isometric embeddings, I., Nederl. Akad. Wetensch. Proc. A 58 (1955), 545–556.
[Li 44] E. Lifshitz, On the magnetic structure of iron, J. Phys. 8 (1944), 337–346.
[Li 77] F.-C. Liu, A Lusin type property of Sobolev functions, Indiana Univ. Math. J. 26 (1977), 645–651.
[LP 93] P.-L. Lions and T. Paul, Sur les mesures de Wigner, Rev. Mat. Iberoamericana 9 (1993), 553–618.
[Lu 96] M. Luskin, On the computation of crystalline microstructure, Acta Num. 5 (1996), 191–258.
[MP 86] J.H. Maddocks and G. Parry, A model for twinning, J. Elasticity 16 (1986), 113–133.
[Ma 94] J. Malý, Lower semicontinuity of quasiconvex integrals, manuscripta math. 85 (1994), 419–428.
[Ma 85] P. Marcellini, Approximation of quasiconvex functions, and lower semicontinuity of multiple integrals, manuscripta math. 51 (1985), 1–28.
[Ma 92] J.P. Matos, Young measures and the absence of fine microstructures in a class of phase transitions, Europ. J. Appl. Math. 3 (1992), 31–54.
[MP 98] J. Matoušek and P. Plecháč, On functional separately convex hulls, J. Discrete Comput. Geom. 19 (1998), 105–130.
[MPT 85] D.W. McLaughlin, G. Papanicolaou and L. Tartar, Weak limits of semilinear hyperbolic sytems with oscillating data, in: Macroscopic modelling of turbulent flows, Lecture Notes in physics 230, Springer, 1985, 277–289.
[MS 40] E.J. McShane, Generalized curves, Duke Math. J. 6 (1940), 513–516.
[MS 89] E.J. McShane, The calculus of variations from the beginning through optimal control theory, SIAM J. Control Opt. 27 (1989), 916–939.
[Me 66] P.-A. Meyer, Probability and potentials, Blaisdell, 1966.
[Me 65] N.G. Meyers, Quasiconvexity and lower semicontinuity of multiple variational integrals of any order, Trans. Amer. Math. Soc. 119 (1965), 125–149.
[Mi 97] A. Mielke, Evolution equations for Young-measure solutions of semilinear hyperbolic problems, preprint, 1997.
[Mi 98] G. Milton, The effective tensors of composites, book in preparation.
[Mo 87] L. Modica, Gradient theory of phase transitions and minimal interface criterion, Arch. Rat. Mech. Anal. 98 (1987), 123–142.
[MM 77a] L. Modica and S. Mortola, Il limite nella Λ-convergenza di una famiglia di funzionali ellittici. Boll. U.M.I 14-A (1977), 525–529.
[MM 77b] L. Modica and S. Mortola, Un esempio di Λ−-convergenza, Boll. U.M.I. 14-B (1977), 285–299.
[Mo 52] C.B. Morrey, Quasi-convexity and the lower semicontinuity of multiple integrals, Pacific. J. Math. 2 (1952), 25–53.
[Mo 66] C.B. Morrey, Multiple integrals in the calculus of variations, Springer, 1966.
[Mu 93] S. Müller Singular perturbations as a selection criterion for periodic minimizing sequences, Calc. Var. 1 (1993), 169–204.
[Mu 97a] S. Müller, Microstructure and the calculus of variations, Nachdiplomvorlesung ETH Zürich, in preparation.
[Mu 97b] S. Müller, A sharp version of Zhang's theorem on truncating sequences of gradients, submitted to Trans. AMS.
[Mu 97c] S. Müller, Microstructures, phase transitions and geometry, in: Proc. ECM2, Budapest, 1996, Birkhäuser, to appear.
[MS 96] S. Müller and V. Šverák, Attainment results for the two-well problem by convex integration, Geometric analysis and the calculus of variations, (J. Jost, ed.), International Press, 1996, 239–251.
[MS 97] S. Müller and V. Šverák, in preparation.
[Mu 78] F. Murat, H-convergence, mimeographed notes, 1978, based partially on the Cours Peacot by L. Tartar, 1977; translation (with authors F. Murat and L. Tartar) in [CK 97a], 21–43.
[MT 97] F. Murat and L. Tartar, On the relation between Young measures and H-measures, in preparation.
[Na 54] J. Nash, C 1 isometric embeddings, Ann. Math. 60 (1954), 383–396.
[Ng 89] G. Nguetseng, A general convergence result for a functional related to the theory of homogenization, SIAM J. Math. Anal. 20 (1989), 608–623.
[Ot 95] F. Otto, Evolution of microstructure in unstable porous media flow: a relaxational approach, preprint SFB 256, Bonn, 1995.
[Ot 97] F. Otto, Dynamics of labyrinthine pattern formation in magnetic fluids: a mean-field theory to appear in Arch. Rat. Mech. Anal.
[Pa 77] G. Parry, On the crystallographic point groups and Cauchy symmetry, Math. Proc. Cambridge Phil. Soc. 82 (1977), 165–175.
[Pa 81] G. Parry, On phase transitions involving internal strain, Int. J. Solids Structures 17 (1981), 361–378.
[Pa 87a] G. Parry, On internal variable models of phase transitions, J. Elasticity 17 (1987), 63–70.
[Pa 87b] G. Parry, On shear bands in unloaded crystals, J. Mech. Phys. Solids 35 (1987), 357–382.
[Pa 89] G. Parry, Stable phase boundaries in unloaded crystals, Cont. Mech. Thermodyn. 1 (1989), 305–314.
[Pe 93] P. Pedregal, Laminates and microstructure, Europ. J. Appl. Math. 4 (1993), 121–149.
[Pe 97] P. Pedregal, Parametrized measures and variational principles, Birkhäuser, 1997.
[Pe 87] R.L. Pego, Phase transitions in one-dimensional nonlinear viscoelasticity: admissibility and stability, Arch. Rat. Mech. Anal. 97 (1987), 353–394.
[Pi 84] M. Pitteri, Reconciliation of local and global symmetries of crystals, J. Elasticity 14 (1984), 175–190.
[PZ 97] M. Pitteri and G. Zanzotto, Continuum models for phase transitions and twinning in crystals, Chapman and Hall, forthcoming.
[Pr 76] I. Privorotskii, Thermodynamic theory of domain structures, Wiley, 1976.
[Re 67] Yu.G. Reshetnyak, On the stability of conformal mappings in multidimensional spaces, Sib. Math. J. 8 (1967), 69–85.
[Re 68a] Yu.G. Reshetnyak, Liouville's theorem under minimal regularity assumptions, Sib. Math. J. 8 (1968), 631–634.
[Re 68b] Yu.G. Reshetnyak, Weak convergence of completely additive vector functions on a set, Sib. Math. J. 9 (1968), 1039–1045.
[Re 89] Yu.G. Reshetnyak, Space mapping with bounded distorsion, Am. Math. Soc., 1989.
[Ro 69] A. Roitburd, The domain structure of crystals formed in the solid phase, Soviet Physics-Solid State 10 (1969), 2870–2876.
[Ro 78] A. Roitburd, Martensitic transformation as a typical phase transformation in solids, Solid State Physics 34 (1978), 317–390.
[Ro 97] T. Roubíček, Relaxation in optimization theory and variational calculus, de Gruyter, 1997.
[Ru 73] W. Rudin, Functional analysis, McGraw-Hill, 1973.
[Sch 94] C. Schreiber, Rapport de stage de D.E.A., ENS Lyon, 1994.
[Sch 93] D. Schryvers, Microtwin sequences in thermoelastic Ni x Al 100-x martensite studied by conventional and high resolution transmission electron microscopy, Phil. Mag. A 68 (1993), 1017–1032.
[Se 83] D. Serre, Formes quadratique et calcul de variations, J. Math. Pures Appl. 62 (1983), 177–196.
[Sv 91a] V. Šverák, Quasiconvex functions with subquadratic growth, Proc. Roy. Soc. London A 433 (1991), 723–725.
[Sv 91b] V. Šverák, On regularity for the Monge-Ampère equations, preprint, Heriot-Watt University, 1991.
[Sv 92a] V. Šverák, Rank-one convexity does not imply quasiconvexity, Proc. Roy. Soc. Edinburgh 120 (1992), 185–189.
[Sv 92b] V. Šverák, New examples of quasiconvex functions, Arch. Rat. Mech. Anal. 119 (1992), 293–300.
[Sv 93a] V. Šverák, On the problem of two wells, in: Microstructure and phase transitions, IMA Vol. Appl. Math. 54 (D. Kinderlehrer, R.D. James, M. Luskin and J. Ericksen, eds.), Springer, 1993, 183–189.
[Sv 93b] V. Šbverák, On Tartar's conjecture, Ann. IHP Analyse non linéaire 10 (1993), 405–412.
[Sv 95] V. Šverák, Lower semicontinuity of variational integrals and compensated compactness, in: Proc. ICM 1994 (S.D. Chatterji, ed.), vol. 2, Birkhäuser, 1995, 1153–1158.
[Sv 98] V. Šverák, In preparation.
[Sv] V. Šverák, personal communication.
[Sy 97] M.A. Sychev, A new approach to Young measure theory, relaxation and convergence in energy, preprint.
[Ta 75] L. Tartar, Problèmes de contrôle des coefficients dans des équations aux derivées partielles, in: Control theory, numerical methods and computer systems modelling (A. Bensoussau and J.-L. Lions, eds.), Springer, 1975, 420–426; translated (with author F. Murat and L. Tartar) in [CK 97a], 1–8.
[Ta 79a] L. Tartar, Compensated compactness and partial differential equations, in: Nonlinear Analysis and Mechanics: Heriot-Watt Symposium Vol. IV, (R. Knops, ed.), Pitman, 1979, 136–212.
[Ta 79b] L. Tartar, Estimations de coefficients homogénéises, in: Computing methods in applied sciences and engineering, Lecture Notes in Mathematics 704, Springer, 1979.
[Ta 80] L. Tartar, Some existence theorems for semilinear hyperbolic systems in one space variable, report #2164, Mathematics Research Center, University of Wisconsin, 1980.
[Ta 81] L. Tartar, Solutions oscillantes des équation de Carleman, seminar Goulaouic-Meyer-Schwartz 1980/81, exp. No. XII, Ecole Polytechnique, Palaiseau, 1981.
[Ta 83] L. Tartar, The compensated compactness method applied to systems of conservations laws, in: Systems of Nonlinear Partial Differential Equations, (J.M. Ball, ed.), NATO ASI Series, Vol. C111, Reidel, 1983, 263–285.
[Ta 84] L. Tartar, Etude des oscillations dans les équations aux derivées partielles non linéaires, in: Trends and applications of pure mathematics to mechanics, Lecture Notes in physics 195, Springer, 1984, 384–412.
[Ta 86] L. Tartar, Oscillations in nonlinear partial differential equations: compensated compactness and homogenization, in: Nonlinear systems of partial differential equations in applied mathematics, Amer. Math. Soc., 1986, 243–266.
[Ta 87] L. Tartar, Oscillations and asymptotic behaviour for two semilinear hyperbolic systems, in: Dynamics of infinite-dimensional dynamical systems, NATO ASI Ser. F. Springer, 1987.
[Ta 90] L. Tartar, H-measures, a new approach for studying homogenization, oscillations and concentration effects in partial differential equations, Proc. Roy. Soc. Edinburgh A 115 (1990), 193–230.
[Ta 93] L. Tartar, Some remarks on separately convex functions, in: Microstructure and phase transitions, IMA Vol. Math. Appl. 54, (D. Kinderlehrer, R.D. James, M. Luskin and J.L. Ericksen, eds.), Springer, 1993, 191–204.
[Ta 95] L. Tartar, Beyond Young measures, Meccanica 30 (1995), 505–526.
[Ta 98] L. Tartar, Homogenization, compensated compactness and Hmeasures, CBMS-NSF conference, Santa Cruz, June 1993, lecture notes in preparation.
[Th 97] F. Theil, Young measure solutions for a viscoelastically damped wave equation with nonmonotone stress-strain relation, to appear in Arch. Rat. Mech. Anal.
[Va 90] M. Valadier, Young measures, in: Methods of nonconvex analysis, LNM 1446, Springer, 1990.
[Va 94] M. Valadier, A course on Young measures, Rend. Istit. Mat. Univ. Trieste 26 (1994), suppl., 349–394.
[Vi 94] A. Visintin, Differential models of hysteresis, Springer, 1994.
[WLR 53] M.S. Wechsler, D.S. Liebermann, T.A. Read, On the theory of the formation of martensite, Trans. AIME J. Metals 197 (1953), 1503–1515.
[Yo 37] L.C. Young, Generalized curves and the existence of an attained absolute minimum in the calculus of variations, Comptes Rendues de la Société des Sciences et des Lettres de Varsovie, classe III 30 (1937), 212–234.
[Yo 69] L.C. Young, Lectures on the calculus of variations and optimal control theory, Saunder, 1969 (reprinted by Chelsea, 1980).
[Za 92] G. Zanzotto, On the material symmetry group of elastic crystals and the Born rule, Arch. Rat. Mech. Anal. 121 (1992), 1–36.
[Zh 92] K. Zhang, A construction of quasiconvex functions with linear growth at infinity, Ann. S. N.S. Pisa 19 (1992), 313–326.
[Zh] K. Zhang, Rank-one connections and the three-well problem, preprint.
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Müller, S. (1999). Variational models for microstructure and phase transitions. In: Hildebrandt, S., Struwe, M. (eds) Calculus of Variations and Geometric Evolution Problems. Lecture Notes in Mathematics, vol 1713. Springer, Berlin, Heidelberg. https://doi.org/10.1007/BFb0092670
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