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Título : Quantum Field Theory and Gravity : Conceptual and Mathematical Advances in the Search for a Unified Framework Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Felix Finster ; Olaf Müller ; Marc Nardmann ; Jürgen Tolksdorf ; Eberhard Zeidler Editorial: Basel : Springer Basel Fecha de publicación: 2012 Número de páginas: XIV, 382 p Il.: online resource ISBN/ISSN/DL: 978-3-0348-0043-3 Idioma : Inglés (eng) Palabras clave: Mathematics Algebra Field theory (Physics) Global analysis (Mathematics) Manifolds Analysis and on Theory Polynomials Clasificación: 51 Matemáticas Resumen: One of the most challenging problems of contemporary theoretical physics is the mathematically rigorous construction of a theory which describes gravitation and the other fundamental physical interactions within a common framework. The physical ideas which grew from attempts to develop such a theory require highly advanced mathematical methods and radically new physical concepts. This book presents different approaches to a rigorous unified description of quantum fields and gravity. It contains a carefully selected cross-section of lively discussions which took place in autumn 2010 at the fifth conference "Quantum field theory and gravity - Conceptual and mathematical advances in the search for a unified framework" in Regensburg, Germany. In the tradition of the other proceedings covering this series of conferences, a special feature of this book is the exposition of a wide variety of approaches, with the intention to facilitate a comparison. The book is mainly addressed to mathematicians and physicists who are interested in fundamental questions of mathematical physics. It allows the reader to obtain a broad and up-to-date overview of a fascinating active research area Nota de contenido: Preface -- Quantum Gravity: Whence, Whithter? (Claus Kiefer) -- Local Covariance and Background Independence (Klaus Fredenhagen, Katarzyna Rejzner) -- The "Big Wave" Theory for Dark Energy (Blake Temple).- Discrete and Continuum Third Quantization of Gravity (Steffen Gielen, Daniele Oriti) -- Unsharp Values, Domains and Topoi (Andreas Döring, Rui Soares Barbosa) -- Causal Boundary of Spacetimes: Revision and Applications to AdS/CFT Correspondence (José Luis Flores, Jónatan Herrera, Miguel Sánchez) -- Some Mathematical Aspects of the Hawking Effect for Rotating Black Holes (Dietrich Häfner) -- Observables in the General Boundary Formulation (Robert Oeckl) -- Causal Fermion Systems: A Quantum Space-Time Emerging From an Action Principle (Felix Finster, Andreas Grotz, Daniela Schiefeneder) -- CCR- Versus CAR-Quantization on Curved Spacetimes (Christian Bär, Nicolas Ginoux) -- On the Notion of 'the Same Physics in All Spacetimes' (Christopher J. Fewster) -- Local Covariance, Renormalization Ambiguity, and Local Thermal Equilibrium in Cosmology (Rainer Verch) -- Shape Dynamics. An Introduction (Julian Barbour) -- On the Motion of Point Defects in Relativistic Fields (Michael K.-H. Kiessling) -- How Unique are Higher-dimensional Black Holes? (Stefan Hollands) -- Equivalence Principle, Quantum Mechanics, and Atom-interferometric Tests (Domenico Giulini) En línea: http://dx.doi.org/10.1007/978-3-0348-0043-3 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=32855 Quantum Field Theory and Gravity : Conceptual and Mathematical Advances in the Search for a Unified Framework [documento electrónico] / SpringerLink (Online service) ; Felix Finster ; Olaf Müller ; Marc Nardmann ; Jürgen Tolksdorf ; Eberhard Zeidler . - Basel : Springer Basel, 2012 . - XIV, 382 p : online resource.
ISBN : 978-3-0348-0043-3
Idioma : Inglés (eng)
Palabras clave: Mathematics Algebra Field theory (Physics) Global analysis (Mathematics) Manifolds Analysis and on Theory Polynomials Clasificación: 51 Matemáticas Resumen: One of the most challenging problems of contemporary theoretical physics is the mathematically rigorous construction of a theory which describes gravitation and the other fundamental physical interactions within a common framework. The physical ideas which grew from attempts to develop such a theory require highly advanced mathematical methods and radically new physical concepts. This book presents different approaches to a rigorous unified description of quantum fields and gravity. It contains a carefully selected cross-section of lively discussions which took place in autumn 2010 at the fifth conference "Quantum field theory and gravity - Conceptual and mathematical advances in the search for a unified framework" in Regensburg, Germany. In the tradition of the other proceedings covering this series of conferences, a special feature of this book is the exposition of a wide variety of approaches, with the intention to facilitate a comparison. The book is mainly addressed to mathematicians and physicists who are interested in fundamental questions of mathematical physics. It allows the reader to obtain a broad and up-to-date overview of a fascinating active research area Nota de contenido: Preface -- Quantum Gravity: Whence, Whithter? (Claus Kiefer) -- Local Covariance and Background Independence (Klaus Fredenhagen, Katarzyna Rejzner) -- The "Big Wave" Theory for Dark Energy (Blake Temple).- Discrete and Continuum Third Quantization of Gravity (Steffen Gielen, Daniele Oriti) -- Unsharp Values, Domains and Topoi (Andreas Döring, Rui Soares Barbosa) -- Causal Boundary of Spacetimes: Revision and Applications to AdS/CFT Correspondence (José Luis Flores, Jónatan Herrera, Miguel Sánchez) -- Some Mathematical Aspects of the Hawking Effect for Rotating Black Holes (Dietrich Häfner) -- Observables in the General Boundary Formulation (Robert Oeckl) -- Causal Fermion Systems: A Quantum Space-Time Emerging From an Action Principle (Felix Finster, Andreas Grotz, Daniela Schiefeneder) -- CCR- Versus CAR-Quantization on Curved Spacetimes (Christian Bär, Nicolas Ginoux) -- On the Notion of 'the Same Physics in All Spacetimes' (Christopher J. Fewster) -- Local Covariance, Renormalization Ambiguity, and Local Thermal Equilibrium in Cosmology (Rainer Verch) -- Shape Dynamics. An Introduction (Julian Barbour) -- On the Motion of Point Defects in Relativistic Fields (Michael K.-H. Kiessling) -- How Unique are Higher-dimensional Black Holes? (Stefan Hollands) -- Equivalence Principle, Quantum Mechanics, and Atom-interferometric Tests (Domenico Giulini) En línea: http://dx.doi.org/10.1007/978-3-0348-0043-3 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=32855 Ejemplares
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Título : Basic Algebra : Along with a companion volume Advanced Algebra Tipo de documento: documento electrónico Autores: Anthony W. Knapp ; SpringerLink (Online service) Editorial: Boston, MA : Birkhäuser Boston Fecha de publicación: 2006 Otro editor: Imprint: Birkhäuser Colección: Cornerstones Número de páginas: XXV, 735 p. 46 illus Il.: online resource ISBN/ISSN/DL: 978-0-8176-4529-8 Idioma : Inglés (eng) Palabras clave: Mathematics Algebra Associative rings Rings (Algebra) Commutative algebra Field theory (Physics) Group Matrix Linear and Multilinear Algebras, Theory Algebras Generalizations Polynomials Clasificación: 51 Matemáticas Resumen: Basic Algebra and Advanced Algebra systematically develop concepts and tools in algebra that are vital to every mathematician, whether pure or applied, aspiring or established. Together, the two books give the reader a global view of algebra and its role in mathematics as a whole. Key topics and features of Basic Algebra: *Linear algebra and group theory build on each other continually *Chapters on modern algebra treat groups, rings, fields, modules, and Galois groups, with emphasis on methods of computation throughout *Three prominent themes recur and blend together at times: the analogy between integers and polynomials in one variable over a field, the interplay between linear algebra and group theory, and the relationship between number theory and geometry *Many examples and hundreds of problems are included, along with a separate 90-page section giving hints or complete solutions for most of the problems *The exposition proceeds from the particular to the general, often providing examples well before a theory that incorporates them; includes blocks of problems that introduce additional topics and applications for further study *Applications to science and engineering (e.g., the fast Fourier transform, the theory of error-correcting codes, the use of the Jordan canonical form in solving linear systems of ordinary differential equations, and constructions of interest in mathematical physics) appear in sequences of problems Basic Algebra presents the subject matter in a forward-looking way that takes into account its historical development. It is suitable as a text in a two-semester advanced undergraduate or first-year graduate sequence in algebra, possibly supplemented by some material from Advanced Algebra at the graduate level. It requires of the reader only familiarity with matrix algebra, an understanding of the geometry and reduction of linear equations, and an acquaintance with proofs Nota de contenido: Preliminaries about the Integers, Polynomials, and Matrices -- Vector Spaces over ?, ?, and ? -- Inner-Product Spaces -- Groups and Group Actions -- Theory of a Single Linear Transformation -- Multilinear Algebra -- Advanced Group Theory -- Commutative Rings and Their Modules -- Fields and Galois Theory -- Modules over Noncommutative Rings En línea: http://dx.doi.org/10.1007/978-0-8176-4529-8 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34882 Basic Algebra : Along with a companion volume Advanced Algebra [documento electrónico] / Anthony W. Knapp ; SpringerLink (Online service) . - Boston, MA : Birkhäuser Boston : Imprint: Birkhäuser, 2006 . - XXV, 735 p. 46 illus : online resource. - (Cornerstones) .
ISBN : 978-0-8176-4529-8
Idioma : Inglés (eng)
Palabras clave: Mathematics Algebra Associative rings Rings (Algebra) Commutative algebra Field theory (Physics) Group Matrix Linear and Multilinear Algebras, Theory Algebras Generalizations Polynomials Clasificación: 51 Matemáticas Resumen: Basic Algebra and Advanced Algebra systematically develop concepts and tools in algebra that are vital to every mathematician, whether pure or applied, aspiring or established. Together, the two books give the reader a global view of algebra and its role in mathematics as a whole. Key topics and features of Basic Algebra: *Linear algebra and group theory build on each other continually *Chapters on modern algebra treat groups, rings, fields, modules, and Galois groups, with emphasis on methods of computation throughout *Three prominent themes recur and blend together at times: the analogy between integers and polynomials in one variable over a field, the interplay between linear algebra and group theory, and the relationship between number theory and geometry *Many examples and hundreds of problems are included, along with a separate 90-page section giving hints or complete solutions for most of the problems *The exposition proceeds from the particular to the general, often providing examples well before a theory that incorporates them; includes blocks of problems that introduce additional topics and applications for further study *Applications to science and engineering (e.g., the fast Fourier transform, the theory of error-correcting codes, the use of the Jordan canonical form in solving linear systems of ordinary differential equations, and constructions of interest in mathematical physics) appear in sequences of problems Basic Algebra presents the subject matter in a forward-looking way that takes into account its historical development. It is suitable as a text in a two-semester advanced undergraduate or first-year graduate sequence in algebra, possibly supplemented by some material from Advanced Algebra at the graduate level. It requires of the reader only familiarity with matrix algebra, an understanding of the geometry and reduction of linear equations, and an acquaintance with proofs Nota de contenido: Preliminaries about the Integers, Polynomials, and Matrices -- Vector Spaces over ?, ?, and ? -- Inner-Product Spaces -- Groups and Group Actions -- Theory of a Single Linear Transformation -- Multilinear Algebra -- Advanced Group Theory -- Commutative Rings and Their Modules -- Fields and Galois Theory -- Modules over Noncommutative Rings En línea: http://dx.doi.org/10.1007/978-0-8176-4529-8 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34882 Ejemplares
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Título : Difference Algebra Tipo de documento: documento electrónico Autores: Alexander Levin ; SpringerLink (Online service) Editorial: Dordrecht : Springer Netherlands Fecha de publicación: 2008 Colección: Algebra and Applications, ISSN 1572-5553 num. 8 Número de páginas: XI, 521 p Il.: online resource ISBN/ISSN/DL: 978-1-4020-6947-5 Idioma : Inglés (eng) Palabras clave: Mathematics Algebra Commutative algebra rings Field theory (Physics) Difference equations Functional Theory and Polynomials Rings Algebras Equations Clasificación: 51 Matemáticas Resumen: Difference algebra grew out of the study of algebraic difference equations with coefficients from functional fields in much the same way as the classical algebraic geometry arose from the study of polynomial equations with numerical coefficients. The first stage of the development of the theory is associated with its founder J. F. Ritt (1893 - 1951) and R. Cohn whose book Difference Algebra (1965) remained the only fundamental monograph on the subject for many years. Nowadays, difference algebra has overgrew the frame of the theory of ordinary algebraic difference equations and appears as a rich theory with applications to the study of equations in finite differences, functional equations, differential equations with delay, algebraic structures with operators, group and semigroup rings. This book reflects the contemporary level of difference algebra; it contains a systematic study of partial difference algebraic structures and their applications, as well as the coverage of the classical theory of ordinary difference rings and field extensions. The monograph is intended for graduate students and researchers in difference and differential algebra, commutative algebra, ring theory, and algebraic geometry. It will be also of interest to researchers in computer algebra, theory of difference equations and equations of mathematical physics. The book is self-contained; it requires no prerequisites other than knowledge of basic algebraic concepts and mathematical maturity of an advanced undergraduate Nota de contenido: Preliminaries -- Basic Concepts of Difference Algebra -- Difference Modules -- Difference Field Extensions -- Compatibility, Replicability, and Monadicity -- Difference Kernels over Partial Difference Fields. Difference Valuation Rings -- Systems of Algebraic Difference Equations -- Elements of the Difference Galois Theory En línea: http://dx.doi.org/10.1007/978-1-4020-6947-5 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34290 Difference Algebra [documento electrónico] / Alexander Levin ; SpringerLink (Online service) . - Dordrecht : Springer Netherlands, 2008 . - XI, 521 p : online resource. - (Algebra and Applications, ISSN 1572-5553; 8) .
ISBN : 978-1-4020-6947-5
Idioma : Inglés (eng)
Palabras clave: Mathematics Algebra Commutative algebra rings Field theory (Physics) Difference equations Functional Theory and Polynomials Rings Algebras Equations Clasificación: 51 Matemáticas Resumen: Difference algebra grew out of the study of algebraic difference equations with coefficients from functional fields in much the same way as the classical algebraic geometry arose from the study of polynomial equations with numerical coefficients. The first stage of the development of the theory is associated with its founder J. F. Ritt (1893 - 1951) and R. Cohn whose book Difference Algebra (1965) remained the only fundamental monograph on the subject for many years. Nowadays, difference algebra has overgrew the frame of the theory of ordinary algebraic difference equations and appears as a rich theory with applications to the study of equations in finite differences, functional equations, differential equations with delay, algebraic structures with operators, group and semigroup rings. This book reflects the contemporary level of difference algebra; it contains a systematic study of partial difference algebraic structures and their applications, as well as the coverage of the classical theory of ordinary difference rings and field extensions. The monograph is intended for graduate students and researchers in difference and differential algebra, commutative algebra, ring theory, and algebraic geometry. It will be also of interest to researchers in computer algebra, theory of difference equations and equations of mathematical physics. The book is self-contained; it requires no prerequisites other than knowledge of basic algebraic concepts and mathematical maturity of an advanced undergraduate Nota de contenido: Preliminaries -- Basic Concepts of Difference Algebra -- Difference Modules -- Difference Field Extensions -- Compatibility, Replicability, and Monadicity -- Difference Kernels over Partial Difference Fields. Difference Valuation Rings -- Systems of Algebraic Difference Equations -- Elements of the Difference Galois Theory En línea: http://dx.doi.org/10.1007/978-1-4020-6947-5 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34290 Ejemplares
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Título : Linearity, Symmetry, and Prediction in the Hydrogen Atom Tipo de documento: documento electrónico Autores: Singer, Stephanie Frank ; SpringerLink (Online service) Editorial: New York, NY : Springer New York Fecha de publicación: 2005 Colección: Undergraduate Texts in Mathematics, ISSN 0172-6056 Número de páginas: XIV, 398 p. 50 illus Il.: online resource ISBN/ISSN/DL: 978-0-387-26369-4 Idioma : Inglés (eng) Palabras clave: Physics Group theory Applied mathematics Engineering Mechanics Elementary particles (Physics) Quantum field Atoms Atomic, Molecular, Optical and Plasma Particles, Field Theory Generalizations Mathematical Methods in Applications of Mathematics Clasificación: 51 Matemáticas Resumen: This is a textbook for a senior-level undergraduate course for math, physics and chemistry majors. This one course can play two different but complimentary roles: it can serve as a capstone course for students finishing their education, and it can serve as motivating story for future study of mathematics. Some textbooks are like a vigorous regular physical training program, preparing people for a wide range of challenges by honing their basic skills thoroughly. Some are like a series of day hikes. This book is more like an intended trek to a particularly beautiful goal. We’ll take the easiest route to the top, and we’ll stop to appreciate local flora as well as distant peaks worthy of the vigorous training one would need to scale them. Advice to the Student: This book was written with many different readers in mind. Some will be mathematics students interested to see a beautiful and powerful application of a “pure” mathematical subject. Some will be students of physics and chemistry curious about the mathematics behind some tools they use, such as spherical harmonics. Because the readership is so varied, no single reader should be put off by occasional digressions aimed at certain other readers Nota de contenido: Setting the Stage -- Linear Algebra over the Complex Numbers -- Complex Scalar Product Spaces (a.k.a. Hilbert Spaces) -- Lie Groups and Lie Group Representations -- New Representations from Old -- Irreducible Representations and Invariant Integration -- Representations and the Hydrogen Atom -- The Algebra so(4) Symmetry of the Hydrogen Atom -- The Group SO(4) Symmetry of the Hydrogen Atom -- Projective Representations and Spin -- Independent Events and Tensor Products En línea: http://dx.doi.org/10.1007/b136359 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=35098 Linearity, Symmetry, and Prediction in the Hydrogen Atom [documento electrónico] / Singer, Stephanie Frank ; SpringerLink (Online service) . - New York, NY : Springer New York, 2005 . - XIV, 398 p. 50 illus : online resource. - (Undergraduate Texts in Mathematics, ISSN 0172-6056) .
ISBN : 978-0-387-26369-4
Idioma : Inglés (eng)
Palabras clave: Physics Group theory Applied mathematics Engineering Mechanics Elementary particles (Physics) Quantum field Atoms Atomic, Molecular, Optical and Plasma Particles, Field Theory Generalizations Mathematical Methods in Applications of Mathematics Clasificación: 51 Matemáticas Resumen: This is a textbook for a senior-level undergraduate course for math, physics and chemistry majors. This one course can play two different but complimentary roles: it can serve as a capstone course for students finishing their education, and it can serve as motivating story for future study of mathematics. Some textbooks are like a vigorous regular physical training program, preparing people for a wide range of challenges by honing their basic skills thoroughly. Some are like a series of day hikes. This book is more like an intended trek to a particularly beautiful goal. We’ll take the easiest route to the top, and we’ll stop to appreciate local flora as well as distant peaks worthy of the vigorous training one would need to scale them. Advice to the Student: This book was written with many different readers in mind. Some will be mathematics students interested to see a beautiful and powerful application of a “pure” mathematical subject. Some will be students of physics and chemistry curious about the mathematics behind some tools they use, such as spherical harmonics. Because the readership is so varied, no single reader should be put off by occasional digressions aimed at certain other readers Nota de contenido: Setting the Stage -- Linear Algebra over the Complex Numbers -- Complex Scalar Product Spaces (a.k.a. Hilbert Spaces) -- Lie Groups and Lie Group Representations -- New Representations from Old -- Irreducible Representations and Invariant Integration -- Representations and the Hydrogen Atom -- The Algebra so(4) Symmetry of the Hydrogen Atom -- The Group SO(4) Symmetry of the Hydrogen Atom -- Projective Representations and Spin -- Independent Events and Tensor Products En línea: http://dx.doi.org/10.1007/b136359 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=35098 Ejemplares
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Título : Modern Differential Geometry in Gauge Theories : Maxwell Fields, Volume I Tipo de documento: documento electrónico Autores: Anastasios Mallios ; SpringerLink (Online service) Editorial: Boston, MA : Birkhäuser Boston Fecha de publicación: 2006 Número de páginas: XVII, 293 p Il.: online resource ISBN/ISSN/DL: 978-0-8176-4474-1 Idioma : Inglés (eng) Palabras clave: Mathematics Algebra Field theory (Physics) Global analysis (Mathematics) Manifolds Differential geometry Physics Optics Electrodynamics Elementary particles Quantum field Geometry Mathematical Methods in Theory and Polynomials Particles, Analysis on Clasificación: 51 Matemáticas Resumen: Differential geometry, in the classical sense, is developed through the theory of smooth manifolds. Modern differential geometry from the author’s perspective is used in this work to describe physical theories of a geometric character without using any notion of calculus (smoothness). Instead, an axiomatic treatment of differential geometry is presented via sheaf theory (geometry) and sheaf cohomology (analysis). Using vector sheaves, in place of bundles, based on arbitrary topological spaces, this unique approach in general furthers new perspectives and calculations that generate unexpected potential applications. Modern Differential Geometry in Gauge Theories is a two-volume research monograph that systematically applies a sheaf-theoretic approach to such physical theories as gauge theory. Beginning with Volume 1, the focus is on Maxwell fields. All the basic concepts of this mathematical approach are formulated and used thereafter to describe elementary particles, electromagnetism, and geometric prequantization. Maxwell fields are fully examined and classified in the language of sheaf theory and sheaf cohomology. Continuing in Volume 2, this sheaf-theoretic approach is applied to Yang–Mills fields in general. The text contains a wealth of detailed and rigorous computations and will appeal to mathematicians and physicists, along with advanced undergraduate and graduate students, interested in applications of differential geometry to physical theories such as general relativity, elementary particle physics and quantum gravity Nota de contenido: Maxwell Fields: General Theory -- The Rudiments of Abstract Differential Geometry -- Elementary Particles: Sheaf-Theoretic Classification, by Spin-Structure, According to Selesnick’s Correspondence Principle -- Electromagnetism -- Cohomological Classification of Maxwell and Hermitian Maxwell Fields -- Geometric Prequantization En línea: http://dx.doi.org/10.1007/0-8176-4474-1 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34865 Modern Differential Geometry in Gauge Theories : Maxwell Fields, Volume I [documento electrónico] / Anastasios Mallios ; SpringerLink (Online service) . - Boston, MA : Birkhäuser Boston, 2006 . - XVII, 293 p : online resource.
ISBN : 978-0-8176-4474-1
Idioma : Inglés (eng)
Palabras clave: Mathematics Algebra Field theory (Physics) Global analysis (Mathematics) Manifolds Differential geometry Physics Optics Electrodynamics Elementary particles Quantum field Geometry Mathematical Methods in Theory and Polynomials Particles, Analysis on Clasificación: 51 Matemáticas Resumen: Differential geometry, in the classical sense, is developed through the theory of smooth manifolds. Modern differential geometry from the author’s perspective is used in this work to describe physical theories of a geometric character without using any notion of calculus (smoothness). Instead, an axiomatic treatment of differential geometry is presented via sheaf theory (geometry) and sheaf cohomology (analysis). Using vector sheaves, in place of bundles, based on arbitrary topological spaces, this unique approach in general furthers new perspectives and calculations that generate unexpected potential applications. Modern Differential Geometry in Gauge Theories is a two-volume research monograph that systematically applies a sheaf-theoretic approach to such physical theories as gauge theory. Beginning with Volume 1, the focus is on Maxwell fields. All the basic concepts of this mathematical approach are formulated and used thereafter to describe elementary particles, electromagnetism, and geometric prequantization. Maxwell fields are fully examined and classified in the language of sheaf theory and sheaf cohomology. Continuing in Volume 2, this sheaf-theoretic approach is applied to Yang–Mills fields in general. The text contains a wealth of detailed and rigorous computations and will appeal to mathematicians and physicists, along with advanced undergraduate and graduate students, interested in applications of differential geometry to physical theories such as general relativity, elementary particle physics and quantum gravity Nota de contenido: Maxwell Fields: General Theory -- The Rudiments of Abstract Differential Geometry -- Elementary Particles: Sheaf-Theoretic Classification, by Spin-Structure, According to Selesnick’s Correspondence Principle -- Electromagnetism -- Cohomological Classification of Maxwell and Hermitian Maxwell Fields -- Geometric Prequantization En línea: http://dx.doi.org/10.1007/0-8176-4474-1 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34865 Ejemplares
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