product iamge

Applied Semigroups and Evolution Equations

This document was uploaded by one of our users. The uploader already confirmed that they had the permission to publish it. If you are author/publisher or own the copyright of this documents, please report to us by using this DMCA report form.

Download
Search on Amazon

Simply click on the Download Book button.

Yes, Book downloads on Ebookily are 100% Free.

Sometimes the book is free on Amazon As well, so go ahead and hit "Search on Amazon"

This book is mainly intended for applied mathematicians, physicists, and engineers and, as such, it gives a self contained introduction to the theory of semigroups and of linear and semilinear evolution-equations in Banach spaces, with particular emphasis on applications to concrete problems from mathematical physics. Since the only prerequisite is a good knowledge of classical differential and integral calculus, the first three chapters give a 'compact picture' of Banach and Hilbert spaces and introduce the basic notions of abstract differential and integral calculus. Chapters 4 and 5 deal with semigroups and with their applications to linear and semilinear evolution equations. In Chapter 6, a detailed discussion is presented on how a problem of evolution in a given Banach space can be approximated by means of a sequence of problems in the same space or in different spaces. The relationships between the spectral properties of generators and those of semigroups are discussed in Chapter 7. Definitions and theorems of Chapters 1-7 are always supplemented with several examples completely worked out. Finally, each of the final six chapters is devoted to a complete study of a problem from applied mathematics, by using the techniques developed in the previous chapters. This book is based on lectures given by the author to final-year undergraduates and to first-year graduates of the Mathematical Schools of Bari University and of Florence University, and on seminars given in the mathematical department of Oxford University. Readers who want to arrive quickly at 'where the action is' may skip (in a first reading) Sections 1.4, 1.5 on Sobolev spaces (and all the Examples that deal with these spaces), Chapters 6 and 7, and some of the proofs in Chapters 2-5.

Author(s): Aldo Belleni-Morante
Series: Oxford Mathematical Monographs
Publisher: Oxford University Press, USA
Year: 1979

Language: English
Pages: C+XVI+387+B

Cover

OXFORD MATHEMATICAL MONOGRAPHS

APPLIED SEMIGROUPS AND EVOLUTION EQUATIONS

Copyright
Oxford University Press 1979
ISBN 0 19 853529 5

Dedicated To Sara

PREFACE

CONTENTS

INTRODUCTION

1 BANACH AND HILBERT SPACES

1.1. BANACH AND HlILBERT SPACES

1.2. EXAMPLES OF BANACH AND HILBERT SPACES

1.3. GENERALIZED DERIVATIVES

1.4. SOBOLEV SPACES OF INTEGER ORDER

1.5. SOBOLEV SPACES OF FRACTIONAL ORDER

EXERCISES

2 OPERATORS IN BANACH SPACES

2.1. NOTATION AND BASIC DEFINITIONS

2.2. BOUNDED LINEAR OPERATORS

2.3. EXAMPLES OF LINEAR BOUNDED OPERATORS

2.4. LIPSCHITZ OPERATORS

2.5. CLOSED OPERATORS

2.6. SELF-ADJOINT OPERATORS

2.7. SPECTRAL PROPERTIES: BASIC DEFINITIONS

2.8. SPECTRAL PROPERTIES : EXAMPLES

EXERCISES

3 ANALYSIS IN BANACH SPACES

3.1. STRONG CONTINUITY

3.2. STRONG DERIVATIVE

3.3. STRONG RIEMANN INTEGRAL

3.4. THE DIFFERENTIAL EQUATION du/dt = F(u)

3.5. HOLOMORPHIC FUNCTIONS

EXERCISES

4 SEMIGROUPS

4.1. LINEAR INITIAL-VALUE PROBLEMS

4.2. THE CASE A in B(X )

4.3. THE CASE A in C(X )

4.4. THE CASE A in G(1, 0; X): TWO PRELIMINARY LEMMAS

4.5. THE SEMI GROUP GENERATED BY A in G(1, O ; X)

4.6. THE CASES A in S(M,0 ;X) ,Bn(M, \beta; X) ,S' (M, S; X)

4.7. THE HOMOGENEOUS AND THE NON-HOMOGENEOUS INITIAL-VALUE PROBLEMS

EXERCISES

5 PERTURBATION THEOREMS

5.1. INTRODUCTION

5.2. BOUNDED PERTURBATIONS

5.3. THE CASES B = B(t) in B(X) AND \beta RELATIVELY BOUNDED

5.4. THE SEMILINEAR CASE

5.5. GLOBAL SOLUTION OF THE SEMI LI NEAR PROBLEM (5.31)

EXERCISES

6 SEQUENCES OF SEMIGROUPS

6.1. SEQUENCES OF SEMI GROUPS exp (tA j)

6.2. SEQUENCES OF BANACH SPACES

6.3. SEQUENCES OF SEMI GROUPS exp (tA.) E

EXERCISES

7 SPECTRAL REPRESENTATION OF CLOSED OPERATORS AND OF SEMIGROUPS

7.1. INTRODUCTION

7.2. PROJECTIONS

7.3. ISOLATED POINTS OF THE SPECTRUM OF A in G(X)

7.4. LAURENT EXPANSION OF R (z ,A)

7.5. ISOLATED E I GENVALUES

7.6. SPECTRAL REPRESENTATION OF A AND OF exp(tA)

EXERCISES

8 HEAT CONDUCTION IN RIGID BODIES AND SIMILAR PROBLEMS

8.1. INTRODUCTION

8.2. A LINEAR HEAT-CONDUCTION PROBLEM IN L^2(a,b)

8.3. A SEMILINEAR HEAT-CONDUCTION PROBLEM

8.4. POSITIVE SOLUTIONS

EXERCISES

9 NEUTRON TRANSPORT

9.1. 'INTRODUCTION

9.2. LINEAR NEUTRON TRANSPORT IN L^2((-a,a)x(-1,1))

9.3. SPECTRAL PROPERTIES OF THE TRANSPORT OPERATOR A 2

9.4. A SEMILINEAR NEUTRON TRANSPORT PROBLEM

EXERCISES

10 A SEMILINEAR PROBLEM FROM KINETIC THEORY OF VEHICULAR TRAFFIC

10.1. INTRODUCTION

10.2. PRELIMINARY LEMMAS

10.3. THE OPERATORS F. K1 AND K2

10.4. THE OPERATORS J AND K3

10.5. GLOBAL SOLUTION OF THE ABSTRACT PROBLEM (10.11)

EXERCISES

11 THE TELEGRAPHIC EQUATION AND THE WAVE EQUATION

11.1. INTRODUCTION

11.2. PRELIMINARY LEMMAS

11.3. THE ABSTRACT VERSION OF THE TELEGRAPHIC SYSTEM (11.4)

11.4. THE TELEGRAPHIC EQUATION AND THE WAVE EQUATION

EXERCISES

12 A PROBLEM FROM QUANTUM MECHANICS

12.1. INTRODUCTION

12.2. SPECTRAL PROPERTIES OF iA

12.3. BOUNDED PERTURBATIONS

EXERCISES

13 A PROBLEM FROM STOCHASTIC POPULATION THEORY

13.1. INTRODUCTION

13.2. THE ABSTRACT PROBLEM

13.3. PRELIMINARY LEMMAS

13.4. STRICT SOLUTION OF THE APPROXIMATING PROBLEM (13.7)

13.5. A PROPERTY OF THE STRICT SOLUTION OF THE APPROXIMATING PROBLEM

13.6. STRICT SOLUTION OF PROBLEM (13.6)

13.7. THE EQUATION FOR THE FIRST MOMENT (n) (t) OF THE BACTERIA POPULATION

EXERCISES

BIBLIOGRAPHY

SUBJECT INDEX

Backl Cover