Author : Dagmar M. Meyer
Publisher : Cambridge University Press
Page : 210 pages
File Size : 12,55 MB
Release : 2005-08-18
Category : Mathematics
ISBN : 9780521850643
A monograph demonstrating remarkable and unexpected interdisciplinary connections in the areas of commutative algebra, invariant theory and algebraic topology.
Author : Uwe Nagel
Publisher : Springer Nature
Page : 233 pages
File Size : 41,90 MB
Release :
Category :
ISBN : 9819738865
Author : Barry Simon
Publisher : Cambridge University Press
Page : 357 pages
File Size : 28,76 MB
Release : 2011-05-19
Category : Mathematics
ISBN : 1139497596
Convexity is important in theoretical aspects of mathematics and also for economists and physicists. In this monograph the author provides a comprehensive insight into convex sets and functions including the infinite-dimensional case and emphasizing the analytic point of view. Chapter one introduces the reader to the basic definitions and ideas that play central roles throughout the book. The rest of the book is divided into four parts: convexity and topology on infinite-dimensional spaces; Loewner's theorem; extreme points of convex sets and related issues, including the Krein–Milman theorem and Choquet theory; and a discussion of convexity and inequalities. The connections between disparate topics are clearly explained, giving the reader a thorough understanding of how convexity is useful as an analytic tool. A final chapter overviews the subject's history and explores further some of the themes mentioned earlier. This is an excellent resource for anyone interested in this central topic.
Author : Isabelle Chalendar
Publisher : Cambridge University Press
Page : 298 pages
File Size : 43,33 MB
Release : 2011-08-18
Category : Mathematics
ISBN : 1139503294
One of the major unsolved problems in operator theory is the fifty-year-old invariant subspace problem, which asks whether every bounded linear operator on a Hilbert space has a nontrivial closed invariant subspace. This book presents some of the major results in the area, including many that were derived within the past few years and cannot be found in other books. Beginning with a preliminary chapter containing the necessary pure mathematical background, the authors present a variety of powerful techniques, including the use of the operator-valued Poisson kernel, various forms of the functional calculus, Hardy spaces, fixed point theorems, minimal vectors, universal operators and moment sequences. The subject is presented at a level accessible to postgraduate students, as well as established researchers. It will be of particular interest to those who study linear operators and also to those who work in other areas of pure mathematics.
Author : Horst Osswald
Publisher : Cambridge University Press
Page : 429 pages
File Size : 12,10 MB
Release : 2012-03
Category : Mathematics
ISBN : 1107016142
After functional, measure and stochastic analysis prerequisites, the author covers chaos decomposition, Skorohod integral processes, Malliavin derivative and Girsanov transformations.
Author : Bas Lemmens
Publisher : Cambridge University Press
Page : 337 pages
File Size : 19,82 MB
Release : 2012-05-03
Category : Mathematics
ISBN : 0521898811
Guides the reader through the nonlinear Perron-Frobenius theory, introducing them to recent developments and challenging open problems.
Author : Ivan Nourdin
Publisher : Cambridge University Press
Page : 255 pages
File Size : 22,24 MB
Release : 2012-05-10
Category : Mathematics
ISBN : 1107017777
This book shows how quantitative central limit theorems can be deduced by combining two powerful probabilistic techniques: Stein's method and Malliavin calculus.
Author : Anatole Katok
Publisher : Cambridge University Press
Page : 320 pages
File Size : 49,72 MB
Release : 2011-06-16
Category : Mathematics
ISBN : 1139496867
This self-contained monograph presents rigidity theory for a large class of dynamical systems, differentiable higher rank hyperbolic and partially hyperbolic actions. This first volume describes the subject in detail and develops the principal methods presently used in various aspects of the rigidity theory. Part I serves as an exposition and preparation, including a large collection of examples that are difficult to find in the existing literature. Part II focuses on cocycle rigidity, which serves as a model for rigidity phenomena as well as a useful tool for studying them. The book is an ideal reference for applied mathematicians and scientists working in dynamical systems and a useful introduction for graduate students interested in entering the field. Its wealth of examples also makes it excellent supplementary reading for any introductory course in dynamical systems.
Author : Cho-Ho Chu
Publisher : Cambridge University Press
Page : 273 pages
File Size : 29,80 MB
Release : 2011-11-17
Category : Mathematics
ISBN : 1139505432
Jordan theory has developed rapidly in the last three decades, but very few books describe its diverse applications. Here, the author discusses some recent advances of Jordan theory in differential geometry, complex and functional analysis, with the aid of numerous examples and concise historical notes. These include: the connection between Jordan and Lie theory via the Tits–Kantor–Koecher construction of Lie algebras; a Jordan algebraic approach to infinite dimensional symmetric manifolds including Riemannian symmetric spaces; the one-to-one correspondence between bounded symmetric domains and JB*-triples; and applications of Jordan methods in complex function theory. The basic structures and some functional analytic properties of JB*-triples are also discussed. The book is a convenient reference for experts in complex geometry or functional analysis, as well as an introduction to these areas for beginning researchers. The recent applications of Jordan theory discussed in the book should also appeal to algebraists.
Author : Sergei Kuksin
Publisher : Cambridge University Press
Page : 337 pages
File Size : 25,5 MB
Release : 2012-09-20
Category : Mathematics
ISBN : 113957695X
This book is dedicated to the mathematical study of two-dimensional statistical hydrodynamics and turbulence, described by the 2D Navier–Stokes system with a random force. The authors' main goal is to justify the statistical properties of a fluid's velocity field u(t,x) that physicists assume in their work. They rigorously prove that u(t,x) converges, as time grows, to a statistical equilibrium, independent of initial data. They use this to study ergodic properties of u(t,x) – proving, in particular, that observables f(u(t,.)) satisfy the strong law of large numbers and central limit theorem. They also discuss the inviscid limit when viscosity goes to zero, normalising the force so that the energy of solutions stays constant, while their Reynolds numbers grow to infinity. They show that then the statistical equilibria converge to invariant measures of the 2D Euler equation and study these measures. The methods apply to other nonlinear PDEs perturbed by random forces.
