Uhlenbeck Compactness
Title | Uhlenbeck Compactness PDF eBook |
Author | Katrin Wehrheim |
Publisher | European Mathematical Society |
Pages | 228 |
Release | 2004 |
Genre | Compact groups |
ISBN | 9783037190043 |
This book gives a detailed account of the analytic foundations of gauge theory, namely, Uhlenbeck's compactness theorems for general connections and for Yang-Mills connections. It guides graduate students into the analysis of Yang-Mills theory as well as serves as a reference for researchers in the field. Largely self contained, the book contains a number of appendices (e.g., on Sobolev spaces of maps between manifolds) and an introductory part covering the $L^p$-regularity theory for the inhomogenous Neumann problem.
Developments of Harmonic Maps, Wave Maps and Yang-Mills Fields into Biharmonic Maps, Biwave Maps and Bi-Yang-Mills Fields
Title | Developments of Harmonic Maps, Wave Maps and Yang-Mills Fields into Biharmonic Maps, Biwave Maps and Bi-Yang-Mills Fields PDF eBook |
Author | Yuan-Jen Chiang |
Publisher | Springer Science & Business Media |
Pages | 418 |
Release | 2013-06-18 |
Genre | Mathematics |
ISBN | 3034805349 |
Harmonic maps between Riemannian manifolds were first established by James Eells and Joseph H. Sampson in 1964. Wave maps are harmonic maps on Minkowski spaces and have been studied since the 1990s. Yang-Mills fields, the critical points of Yang-Mills functionals of connections whose curvature tensors are harmonic, were explored by a few physicists in the 1950s, and biharmonic maps (generalizing harmonic maps) were introduced by Guoying Jiang in 1986. The book presents an overview of the important developments made in these fields since they first came up. Furthermore, it introduces biwave maps (generalizing wave maps) which were first studied by the author in 2009, and bi-Yang-Mills fields (generalizing Yang-Mills fields) first investigated by Toshiyuki Ichiyama, Jun-Ichi Inoguchi and Hajime Urakawa in 2008. Other topics discussed are exponential harmonic maps, exponential wave maps and exponential Yang-Mills fields.
Gauge Theory and the Topology of Four-Manifolds
Title | Gauge Theory and the Topology of Four-Manifolds PDF eBook |
Author | Robert Friedman |
Publisher | American Mathematical Soc. |
Pages | 233 |
Release | 1998 |
Genre | Mathematics |
ISBN | 0821805916 |
This text is part of the IAS/Park City Mathematics series and focuses on gauge theory and the topology of four-manifolds.
Quantum Field Theory and Manifold Invariants
Title | Quantum Field Theory and Manifold Invariants PDF eBook |
Author | Daniel S. Freed |
Publisher | American Mathematical Society, IAS/Park City Mathematics Institute |
Pages | 476 |
Release | 2021-12-02 |
Genre | Mathematics |
ISBN | 1470461234 |
This volume contains lectures from the Graduate Summer School “Quantum Field Theory and Manifold Invariants” held at Park City Mathematics Institute 2019. The lectures span topics in topology, global analysis, and physics, and they range from introductory to cutting edge. Topics treated include mathematical gauge theory (anti-self-dual equations, Seiberg-Witten equations, Higgs bundles), classical and categorified knot invariants (Khovanov homology, Heegaard Floer homology), instanton Floer homology, invertible topological field theory, BPS states and spectral networks. This collection presents a rich blend of geometry and topology, with some theoretical physics thrown in as well, and so provides a snapshot of a vibrant and fast-moving field. Graduate students with basic preparation in topology and geometry can use this volume to learn advanced background material before being brought to the frontiers of current developments. Seasoned researchers will also benefit from the systematic presentation of exciting new advances by leaders in their fields.
The Abel Prize 2018-2022
Title | The Abel Prize 2018-2022 PDF eBook |
Author | Helge Holden |
Publisher | Springer Nature |
Pages | 876 |
Release | 2024 |
Genre | Computer science |
ISBN | 3031339738 |
The book presents the winners of the Abel Prize in mathematics for the period 2018-2022: - Robert P. Langlands (2018) - Karen K. Uhlenbeck (2019) - Hillel Furstenberg and Gregory Margulis (2020) - Lászlo Lóvász and Avi Wigderson (2021) - Dennis P. Sullivan (2022) The profiles feature autobiographical information as well as a scholarly description of each mathematician’s work. In addition, each profile contains a Curriculum Vitae, a complete bibliography, and the full citation from the prize committee. The book also includes photos from the period 2018-2022 showing many of the additional activities connected with the Abel Prize. This book follows on The Abel Prize: 2003-2007. The First Five Years (Springer, 2010) and The Abel Prize 2008-2012 (Springer, 2014) as well as on The Abel Prize 2013-2017 (Springer, 2019), which profile the previous Abel Prize laureates.
Modern Geometry
Title | Modern Geometry PDF eBook |
Author | Vicente Muñoz |
Publisher | American Mathematical Soc. |
Pages | 426 |
Release | 2018-09-05 |
Genre | Mathematics |
ISBN | 1470440946 |
This book contains a collection of survey articles of exciting new developments in geometry, written in tribute to Simon Donaldson to celebrate his 60th birthday. Reflecting the wide range of Donaldson's interests and influence, the papers range from algebraic geometry and topology through symplectic geometry and geometric analysis to mathematical physics. Their expository nature means the book acts as an invitation to the various topics described, while also giving a sense of the links between these different areas and the unity of modern geometry.
A Course in Minimal Surfaces
Title | A Course in Minimal Surfaces PDF eBook |
Author | Tobias Holck Colding |
Publisher | American Mathematical Society |
Pages | 330 |
Release | 2024-01-18 |
Genre | Mathematics |
ISBN | 1470476401 |
Minimal surfaces date back to Euler and Lagrange and the beginning of the calculus of variations. Many of the techniques developed have played key roles in geometry and partial differential equations. Examples include monotonicity and tangent cone analysis originating in the regularity theory for minimal surfaces, estimates for nonlinear equations based on the maximum principle arising in Bernstein's classical work, and even Lebesgue's definition of the integral that he developed in his thesis on the Plateau problem for minimal surfaces. This book starts with the classical theory of minimal surfaces and ends up with current research topics. Of the various ways of approaching minimal surfaces (from complex analysis, PDE, or geometric measure theory), the authors have chosen to focus on the PDE aspects of the theory. The book also contains some of the applications of minimal surfaces to other fields including low dimensional topology, general relativity, and materials science. The only prerequisites needed for this book are a basic knowledge of Riemannian geometry and some familiarity with the maximum principle.