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Título : Fourier-Mukai and Nahm Transforms in Geometry and Mathematical Physics Tipo de documento: documento electrónico Autores: Claudio Bartocci ; SpringerLink (Online service) ; Bruzzo, Ugo ; Hernández Ruipérez, Daniel Editorial: Boston : Birkhäuser Boston Fecha de publicación: 2009 Colección: Progress in Mathematics num. 276 Número de páginas: XVI, 418 p. 83 illus Il.: online resource ISBN/ISSN/DL: 978-0-8176-4663-9 Idioma : Inglés (eng) Palabras clave: Physics Algebraic geometry Partial differential equations Differential Physics, general Geometry Equations Theoretical, Mathematical and Computational Clasificación: 51 Matemáticas Resumen: Integral transforms, such as the Laplace and Fourier transforms, have been major tools in mathematics for at least two centuries. In the last three decades the development of a number of novel ideas in algebraic geometry, category theory, gauge theory, and string theory has been closely related to generalizations of integral transforms of a more geometric character. Fourier–Mukai and Nahm Transforms in Geometry and Mathematical Physics examines the algebro-geometric approach (Fourier–Mukai functors) as well as the differential-geometric constructions (Nahm). Also included is a considerable amount of material from existing literature which has not been systematically organized into a monograph. Key features: * Basic constructions and definitions are presented in preliminary background chapters * Presentation explores applications and suggests several open questions * Extensive bibliography and index This self-contained monograph provides an introduction to current research in geometry and mathematical physics and is intended for graduate students and researchers just entering this field Nota de contenido: Integral functors -- Fourier-Mukai functors -- Fourier-Mukai on Abelian varieties -- Fourier-Mukai on K3 surfaces -- Nahm transforms -- Relative Fourier-Mukai functors -- Fourier-Mukai partners and birational geometry -- Derived and triangulated categories -- Lattices -- Miscellaneous results -- Stability conditions for derived categories En línea: http://dx.doi.org/10.1007/b11801 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=33938 Fourier-Mukai and Nahm Transforms in Geometry and Mathematical Physics [documento electrónico] / Claudio Bartocci ; SpringerLink (Online service) ; Bruzzo, Ugo ; Hernández Ruipérez, Daniel . - Boston : Birkhäuser Boston, 2009 . - XVI, 418 p. 83 illus : online resource. - (Progress in Mathematics; 276) .
ISBN : 978-0-8176-4663-9
Idioma : Inglés (eng)
Palabras clave: Physics Algebraic geometry Partial differential equations Differential Physics, general Geometry Equations Theoretical, Mathematical and Computational Clasificación: 51 Matemáticas Resumen: Integral transforms, such as the Laplace and Fourier transforms, have been major tools in mathematics for at least two centuries. In the last three decades the development of a number of novel ideas in algebraic geometry, category theory, gauge theory, and string theory has been closely related to generalizations of integral transforms of a more geometric character. Fourier–Mukai and Nahm Transforms in Geometry and Mathematical Physics examines the algebro-geometric approach (Fourier–Mukai functors) as well as the differential-geometric constructions (Nahm). Also included is a considerable amount of material from existing literature which has not been systematically organized into a monograph. Key features: * Basic constructions and definitions are presented in preliminary background chapters * Presentation explores applications and suggests several open questions * Extensive bibliography and index This self-contained monograph provides an introduction to current research in geometry and mathematical physics and is intended for graduate students and researchers just entering this field Nota de contenido: Integral functors -- Fourier-Mukai functors -- Fourier-Mukai on Abelian varieties -- Fourier-Mukai on K3 surfaces -- Nahm transforms -- Relative Fourier-Mukai functors -- Fourier-Mukai partners and birational geometry -- Derived and triangulated categories -- Lattices -- Miscellaneous results -- Stability conditions for derived categories En línea: http://dx.doi.org/10.1007/b11801 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=33938 Ejemplares
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Título : Fuchsian Reduction : Applications to Geometry, Cosmology, and Mathematical Physics Tipo de documento: documento electrónico Autores: Kichenassamy, Satyanad ; SpringerLink (Online service) Editorial: Boston, MA : Birkhäuser Boston Fecha de publicación: 2007 Colección: Progress in Nonlinear Differential Equations and Their Applications num. 71 Número de páginas: XV, 289 p Il.: online resource ISBN/ISSN/DL: 978-0-8176-4637-0 Idioma : Inglés (eng) Palabras clave: Mathematics Partial differential equations Applied mathematics Engineering Geometry Differential geometry Physics Space sciences Equations Applications of Mathematical Methods in Extraterrestrial Physics, Sciences Clasificación: 51 Matemáticas Resumen: Fuchsian reduction is a method for representing solutions of nonlinear PDEs near singularities. The technique has multiple applications including soliton theory, Einstein's equations and cosmology, stellar models, laser collapse, conformal geometry and combustion. Developed in the 1990s for semilinear wave equations, Fuchsian reduction research has grown in response to those problems in pure and applied mathematics where numerical computations fail. This work unfolds systematically in four parts, interweaving theory and applications. The case studies examined in Part III illustrate the impact of reduction techniques, and may serve as prototypes for future new applications. In the same spirit, most chapters include a problem section. Background results and solutions to selected problems close the volume. This book can be used as a text in graduate courses in pure or applied analysis, or as a resource for researchers working with singularities in geometry and mathematical physics Nota de contenido: Fuchsian Reduction -- Formal Series -- General Reduction Methods -- Theory of Fuchsian Partial Di?erential Equations -- Convergent Series Solutions of Fuchsian Initial-Value Problems -- Fuchsian Initial-Value Problems in Sobolev Spaces -- Solution of Fuchsian Elliptic Boundary-Value Problems -- Applications -- Applications in Astronomy -- Applications in General Relativity -- Applications in Differential Geometry -- Applications to Nonlinear Waves -- Boundary Blowup for Nonlinear Elliptic Equations -- Background Results -- Distance Function and Hölder Spaces -- Nash–Moser Inverse Function Theorem En línea: http://dx.doi.org/10.1007/978-0-8176-4637-0 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34567 Fuchsian Reduction : Applications to Geometry, Cosmology, and Mathematical Physics [documento electrónico] / Kichenassamy, Satyanad ; SpringerLink (Online service) . - Boston, MA : Birkhäuser Boston, 2007 . - XV, 289 p : online resource. - (Progress in Nonlinear Differential Equations and Their Applications; 71) .
ISBN : 978-0-8176-4637-0
Idioma : Inglés (eng)
Palabras clave: Mathematics Partial differential equations Applied mathematics Engineering Geometry Differential geometry Physics Space sciences Equations Applications of Mathematical Methods in Extraterrestrial Physics, Sciences Clasificación: 51 Matemáticas Resumen: Fuchsian reduction is a method for representing solutions of nonlinear PDEs near singularities. The technique has multiple applications including soliton theory, Einstein's equations and cosmology, stellar models, laser collapse, conformal geometry and combustion. Developed in the 1990s for semilinear wave equations, Fuchsian reduction research has grown in response to those problems in pure and applied mathematics where numerical computations fail. This work unfolds systematically in four parts, interweaving theory and applications. The case studies examined in Part III illustrate the impact of reduction techniques, and may serve as prototypes for future new applications. In the same spirit, most chapters include a problem section. Background results and solutions to selected problems close the volume. This book can be used as a text in graduate courses in pure or applied analysis, or as a resource for researchers working with singularities in geometry and mathematical physics Nota de contenido: Fuchsian Reduction -- Formal Series -- General Reduction Methods -- Theory of Fuchsian Partial Di?erential Equations -- Convergent Series Solutions of Fuchsian Initial-Value Problems -- Fuchsian Initial-Value Problems in Sobolev Spaces -- Solution of Fuchsian Elliptic Boundary-Value Problems -- Applications -- Applications in Astronomy -- Applications in General Relativity -- Applications in Differential Geometry -- Applications to Nonlinear Waves -- Boundary Blowup for Nonlinear Elliptic Equations -- Background Results -- Distance Function and Hölder Spaces -- Nash–Moser Inverse Function Theorem En línea: http://dx.doi.org/10.1007/978-0-8176-4637-0 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34567 Ejemplares
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Título : Introduction to the Basic Concepts of Modern Physics : Special Relativity, Quantum and Statistical Physics Tipo de documento: documento electrónico Autores: Carlo Maria Becchi ; SpringerLink (Online service) ; D’Elia, Massimo Editorial: Milano : Springer Milan Fecha de publicación: 2010 Otro editor: Imprint: Springer Colección: UNITEXT, ISSN 2038-5714 Número de páginas: X, 185 p Il.: online resource ISBN/ISSN/DL: 978-88-470-1616-3 Idioma : Inglés (eng) Palabras clave: Physics Quantum physics Optics Electrodynamics Cosmology Statistical Dynamical systems Physics, Systems and Complexity Clasificación: 51 Matemáticas Resumen: These notes are designed as a text book for a course on the Modern Physics Theory for undergraduate students. The purpose is providing a rigorous and self-contained presentation of the simplest theoretical framework using elementary mathematical tools. A number of examples of relevant applications and an appropriate list of exercises and answered questions are also given. The first part is devoted to Special Relativity, concerning in particular space-time relativity and relativistic kinematics. The second part deals with Schroedinger's formulation of quantum mechanics. The presentation concerns mainly one dimensional problems, in particular tunnel effect, discrete energy levels and band spectra. The three dimensional Schroedinger equation is discussed in the case of a cubic box and in that of central potentials; in particular we give some details on the harmonic oscillator, the spherical box and the Coulomb potential. The third part concerns the application of Gibbs statistical methods to quantum systems and in particular to Bose and Fermi gasses En línea: http://dx.doi.org/10.1007/978-88-470-1616-3 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=33802 Introduction to the Basic Concepts of Modern Physics : Special Relativity, Quantum and Statistical Physics [documento electrónico] / Carlo Maria Becchi ; SpringerLink (Online service) ; D’Elia, Massimo . - Milano : Springer Milan : Imprint: Springer, 2010 . - X, 185 p : online resource. - (UNITEXT, ISSN 2038-5714) .
ISBN : 978-88-470-1616-3
Idioma : Inglés (eng)
Palabras clave: Physics Quantum physics Optics Electrodynamics Cosmology Statistical Dynamical systems Physics, Systems and Complexity Clasificación: 51 Matemáticas Resumen: These notes are designed as a text book for a course on the Modern Physics Theory for undergraduate students. The purpose is providing a rigorous and self-contained presentation of the simplest theoretical framework using elementary mathematical tools. A number of examples of relevant applications and an appropriate list of exercises and answered questions are also given. The first part is devoted to Special Relativity, concerning in particular space-time relativity and relativistic kinematics. The second part deals with Schroedinger's formulation of quantum mechanics. The presentation concerns mainly one dimensional problems, in particular tunnel effect, discrete energy levels and band spectra. The three dimensional Schroedinger equation is discussed in the case of a cubic box and in that of central potentials; in particular we give some details on the harmonic oscillator, the spherical box and the Coulomb potential. The third part concerns the application of Gibbs statistical methods to quantum systems and in particular to Bose and Fermi gasses En línea: http://dx.doi.org/10.1007/978-88-470-1616-3 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=33802 Ejemplares
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Título : Computational Methods in Transport: Verification and Validation Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Graziani, Frank Editorial: Berlin, Heidelberg : Springer Berlin Heidelberg Fecha de publicación: 2008 Colección: Lecture Notes in Computational Science and Engineering, ISSN 1439-7358 num. 62 Número de páginas: X, 332 p. 77 illus., 42 illus. in color Il.: online resource ISBN/ISSN/DL: 978-3-540-77362-7 Idioma : Inglés (eng) Palabras clave: Physics Computers Computer mathematics Astrophysics Applied Engineering Physics, general Theory of Computation Computational Science and Theoretical, Mathematical Astroparticles Appl.Mathematics/Computational Methods Clasificación: 51 Matemáticas Resumen: The focus of this book deals with a cross cutting issue affecting all particle transport algorithms and applications; verification and validation (V&V). In other words, are the equations being solved correctly and are the correct equations being solved? Verification and validation assures a scientist, engineer or mathematician that a simulation code is a mirror of reality and not just an expensive computer game. In this book, we will learn what the astrophysicist, atmospheric scientist, mathematician or nuclear engineer do to assess the accuracy of their code. What convergence studies, what error analysis, what problems do each field use to benchmark and ascertain the accuracy of their transport simulations. Is there a need for new benchmark problems? Are there experiments that can be used to help validate the simulation results? If not, are there new experiments that could address these issues? These are all questions raised in this proceedings of the Second Computational Methods in Transport Workshop Nota de contenido: Verification (Mostly) for High Energy Density Radiation Transport: Five Case Studies -- A General Strategy for Physics-Based Model Validation Illustrated with Earthquake Phenomenology, Atmospheric Radiative Transfer, and Computational Fluid Dynamics -- Spectral Solvers to Non-Conservative Transport for Non-Linear Interactive Systems of Boltzmann Type -- The Art of Analytical Benchmarking -- Implicit Monte Carlo Radiation Transport Simulations of Four Test Problems -- The Prompt Spectrum of a Radiating Sphere: Benchmark Solutions for Diffusion and Transport -- Some Verification Problems with Possible Transport Applications -- Canopy Reflectance Model Benchmarking: RAMI and the ROMC -- Uncertainty and Sensitivity Analysis for Models of Complex Systems -- A Brief Overview of the State-of-the-Practice and Current Challenges of Solution Verification -- Expert Panel Opinion and Global Sensitivity Analysis for Composite Indicators -- A Practical Global Sensitivity Analysis Methodology for Multi-Physics Applications En línea: http://dx.doi.org/10.1007/978-3-540-77362-7 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34368 Computational Methods in Transport: Verification and Validation [documento electrónico] / SpringerLink (Online service) ; Graziani, Frank . - Berlin, Heidelberg : Springer Berlin Heidelberg, 2008 . - X, 332 p. 77 illus., 42 illus. in color : online resource. - (Lecture Notes in Computational Science and Engineering, ISSN 1439-7358; 62) .
ISBN : 978-3-540-77362-7
Idioma : Inglés (eng)
Palabras clave: Physics Computers Computer mathematics Astrophysics Applied Engineering Physics, general Theory of Computation Computational Science and Theoretical, Mathematical Astroparticles Appl.Mathematics/Computational Methods Clasificación: 51 Matemáticas Resumen: The focus of this book deals with a cross cutting issue affecting all particle transport algorithms and applications; verification and validation (V&V). In other words, are the equations being solved correctly and are the correct equations being solved? Verification and validation assures a scientist, engineer or mathematician that a simulation code is a mirror of reality and not just an expensive computer game. In this book, we will learn what the astrophysicist, atmospheric scientist, mathematician or nuclear engineer do to assess the accuracy of their code. What convergence studies, what error analysis, what problems do each field use to benchmark and ascertain the accuracy of their transport simulations. Is there a need for new benchmark problems? Are there experiments that can be used to help validate the simulation results? If not, are there new experiments that could address these issues? These are all questions raised in this proceedings of the Second Computational Methods in Transport Workshop Nota de contenido: Verification (Mostly) for High Energy Density Radiation Transport: Five Case Studies -- A General Strategy for Physics-Based Model Validation Illustrated with Earthquake Phenomenology, Atmospheric Radiative Transfer, and Computational Fluid Dynamics -- Spectral Solvers to Non-Conservative Transport for Non-Linear Interactive Systems of Boltzmann Type -- The Art of Analytical Benchmarking -- Implicit Monte Carlo Radiation Transport Simulations of Four Test Problems -- The Prompt Spectrum of a Radiating Sphere: Benchmark Solutions for Diffusion and Transport -- Some Verification Problems with Possible Transport Applications -- Canopy Reflectance Model Benchmarking: RAMI and the ROMC -- Uncertainty and Sensitivity Analysis for Models of Complex Systems -- A Brief Overview of the State-of-the-Practice and Current Challenges of Solution Verification -- Expert Panel Opinion and Global Sensitivity Analysis for Composite Indicators -- A Practical Global Sensitivity Analysis Methodology for Multi-Physics Applications En línea: http://dx.doi.org/10.1007/978-3-540-77362-7 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34368 Ejemplares
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Título : Elliptic and Parabolic Problems : A Special Tribute to the Work of Haim Brezis Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Catherine Bandle ; Henri Berestycki ; Brighi, Bernard ; Brillard, Alain ; Chipot, Michel ; Coron, Jean-Michel ; Sbordone, Carlo ; Shafrir, Itai ; Valente, Vanda ; Caffarelli, Giorgio Vergara Editorial: Basel : Birkhäuser Basel Fecha de publicación: 2005 Colección: Progress in Nonlinear Differential Equations and Their Applications num. 63 Número de páginas: IX, 470 p Il.: online resource ISBN/ISSN/DL: 978-3-7643-7384-9 Idioma : Inglés (eng) Palabras clave: Mathematics Partial differential equations Statistics Differential Equations for Engineering, Physics, Computer Science, Chemistry and Earth Sciences Clasificación: 51 Matemáticas Nota de contenido: One-Layer Free Boundary Problems with Two Free Boundaries -- New Numerical Solutions for the Brezis-Nirenberg Problem on $$\mathbb{S}^n $$ -- On some Boundary Value Problems for Incompressible Viscous Flows with Shear Dependent Viscosity -- Radiative Heat Transfer in Silicon Purification -- A Decay Result for a Quasilinear Parabolic System -- The Shape of Charged Drops: Symmetrybreaking Bifurcations and Numerical Results -- On the One-dimensional Parabolic Obstacle Problem with Variable Coefficients -- Hardy Potentials and Quasi-linear Elliptic Problems Having Natural Growth Terms -- Recent Advances on Similarity Solutions Arising During Free Convection -- Rellich Relations for Mixed Boundary Elliptic Problems -- Lyapunov-type Inequalities and Applications to PDE -- Gaeta 2004. Elliptic Resonant Problems with a Periodic Nonlinearity -- Harnack Inequality for p-Laplacians on Metric Fractals -- Wave Propagation in Discrete Media -- A Solution of the Heat Equation with a Continuum of Decay Rates -- Finite Volume Scheme for Semiconductor Energy-transport Model -- Asymptotic Behavior of Nonlinear Parabolic Problems with Periodic Data -- Geodesic Computations for Fast and Accurate Surface Remeshing and Parameterization -- On the Newton Body Type Problems -- Some Open Problems on Water Tank Control Systems -- Hölder Estimates for Solutions to a Singular Nonlinear Neumann Problem -- Asymptotic Analysis of the Neumann Problem for the Ukawa Equation in a Thick Multi-structure of Type 3:2:2 -- On the Haïm Brezis Pioneering Contributions on the Location of Free Boundaries -- Fractal Conservation Laws: Global Smooth Solutions and Vanishing Regularization -- Stationary and Self-similar Solutions for Coagulation and Fragmentation Equations -- Orlicz Capacities and Applications to PDEs and Sobolev Mappings -- Energy Forms on Non Self-similar Fractals -- Measure Data and Numerical Schemes for Elliptic Problems -- Brezis-Nirenberg Problem and Coron Problem for Polyharmonic Operators -- Local and Global Properties of Solutions of a Nonlinear Boundary Layer Equation -- Mathematical Models of Aggregation: The Role of Explicit Solutions -- Metastable Behavior of Premixed Gas Flames -- Recent Progress on Boundary Blow-up -- Maximum Principle for Bounded Solutions of the Telegraph Equation: The Case of High Dimensions -- Kolmogorov Equations in Physics and in Finance -- Harnack Inequalities and Gaussian Estimates for a Class of Hypoelliptic Operators -- How to Construct Good Measures -- Bifurcation and Asymptotics for Elliptic Problems with Singular Nonlinearity -- A Model for Hysteresis in Mechanics Using Local Minimizers of Young Measures -- The Precise Lp-theory of Elliptic Equations in the Plane -- Essential Spectrum and Noncontrollability of Membrane Shells -- The Porous Medium Equation. New Contractivity Results -- Large Solutions of Elliptic Equations with Strong Absorption -- Relaxation in Presence of Pointwise Gradient Constraints En línea: http://dx.doi.org/10.1007/3-7643-7384-9 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=35342 Elliptic and Parabolic Problems : A Special Tribute to the Work of Haim Brezis [documento electrónico] / SpringerLink (Online service) ; Catherine Bandle ; Henri Berestycki ; Brighi, Bernard ; Brillard, Alain ; Chipot, Michel ; Coron, Jean-Michel ; Sbordone, Carlo ; Shafrir, Itai ; Valente, Vanda ; Caffarelli, Giorgio Vergara . - Basel : Birkhäuser Basel, 2005 . - IX, 470 p : online resource. - (Progress in Nonlinear Differential Equations and Their Applications; 63) .
ISBN : 978-3-7643-7384-9
Idioma : Inglés (eng)
Palabras clave: Mathematics Partial differential equations Statistics Differential Equations for Engineering, Physics, Computer Science, Chemistry and Earth Sciences Clasificación: 51 Matemáticas Nota de contenido: One-Layer Free Boundary Problems with Two Free Boundaries -- New Numerical Solutions for the Brezis-Nirenberg Problem on $$\mathbb{S}^n $$ -- On some Boundary Value Problems for Incompressible Viscous Flows with Shear Dependent Viscosity -- Radiative Heat Transfer in Silicon Purification -- A Decay Result for a Quasilinear Parabolic System -- The Shape of Charged Drops: Symmetrybreaking Bifurcations and Numerical Results -- On the One-dimensional Parabolic Obstacle Problem with Variable Coefficients -- Hardy Potentials and Quasi-linear Elliptic Problems Having Natural Growth Terms -- Recent Advances on Similarity Solutions Arising During Free Convection -- Rellich Relations for Mixed Boundary Elliptic Problems -- Lyapunov-type Inequalities and Applications to PDE -- Gaeta 2004. Elliptic Resonant Problems with a Periodic Nonlinearity -- Harnack Inequality for p-Laplacians on Metric Fractals -- Wave Propagation in Discrete Media -- A Solution of the Heat Equation with a Continuum of Decay Rates -- Finite Volume Scheme for Semiconductor Energy-transport Model -- Asymptotic Behavior of Nonlinear Parabolic Problems with Periodic Data -- Geodesic Computations for Fast and Accurate Surface Remeshing and Parameterization -- On the Newton Body Type Problems -- Some Open Problems on Water Tank Control Systems -- Hölder Estimates for Solutions to a Singular Nonlinear Neumann Problem -- Asymptotic Analysis of the Neumann Problem for the Ukawa Equation in a Thick Multi-structure of Type 3:2:2 -- On the Haïm Brezis Pioneering Contributions on the Location of Free Boundaries -- Fractal Conservation Laws: Global Smooth Solutions and Vanishing Regularization -- Stationary and Self-similar Solutions for Coagulation and Fragmentation Equations -- Orlicz Capacities and Applications to PDEs and Sobolev Mappings -- Energy Forms on Non Self-similar Fractals -- Measure Data and Numerical Schemes for Elliptic Problems -- Brezis-Nirenberg Problem and Coron Problem for Polyharmonic Operators -- Local and Global Properties of Solutions of a Nonlinear Boundary Layer Equation -- Mathematical Models of Aggregation: The Role of Explicit Solutions -- Metastable Behavior of Premixed Gas Flames -- Recent Progress on Boundary Blow-up -- Maximum Principle for Bounded Solutions of the Telegraph Equation: The Case of High Dimensions -- Kolmogorov Equations in Physics and in Finance -- Harnack Inequalities and Gaussian Estimates for a Class of Hypoelliptic Operators -- How to Construct Good Measures -- Bifurcation and Asymptotics for Elliptic Problems with Singular Nonlinearity -- A Model for Hysteresis in Mechanics Using Local Minimizers of Young Measures -- The Precise Lp-theory of Elliptic Equations in the Plane -- Essential Spectrum and Noncontrollability of Membrane Shells -- The Porous Medium Equation. New Contractivity Results -- Large Solutions of Elliptic Equations with Strong Absorption -- Relaxation in Presence of Pointwise Gradient Constraints En línea: http://dx.doi.org/10.1007/3-7643-7384-9 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=35342 Ejemplares
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