Degenerate parabolic equations
Author(s)
Bibliographic Information
Degenerate parabolic equations
(Universitext)
Springer-Verlag, c1993
- : us
- : gw
Available at / 62 libraries
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Hokkaido University, Library, Graduate School of Science, Faculty of Science and School of Science図書
: New Yorkdc20:515/d5452070266057
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Note
Includes bibliographical references (p. [381]-387)
Description and Table of Contents
- Volume
-
: us ISBN 9780387940205
Description
Mathematicians have only recently begun to understand the local structure of solutions of degenerate and singular parabolic partial differential equations. The problem originated in the mid '60s with the work of DeGiorgi, Moser, Ladyzenskajia and Uraltzeva. This book will be an account of the developments in this field over the past five years. It evolved out of the 1990-Lipschitz Lectures given by Professor DiBenedetto at the Institut fur angewandte Mathematik of the University, Bonn.
Table of Contents
- I. Notation and function spaces.- 1. Some notation.- 2. Basic facts aboutW1,p(?) andWo1,p(?).- 3. Parabolic spaces and embeddings.- 4. Auxiliary lemmas.- 5. Bibliographical notes.- II. Weak solutions and local energy estimates.- 1. Quasilinear degenerate or singular equations.- 2. Boundary value problems.- 3. Local integral inequalities.- 4. Energy estimates near the boundary.- 5. Restricted structures: the levelskand the constant ?.- 6. Bibliographical notes.- III. Hoelder continuity of solutions of degenerate parabolic equations.- 1. The regularity theorem.- 2. Preliminaries.- 3. The main proposition.- 4. The first alternative.- 5. The first alternative continued.- 6. The first alternative concluded.- 7. The second alternative.- 8. The second alternative continued.- 9. The second alternative concluded.- 10. Proof of Proposition 3.1.- 11. Regularity up tot= 0.- 12. Regularity up toST. Dirichlet data.- 13. Regularity atST. Variational data.- 14. Remarks on stability.- 15. Bibliographical notes.- IV. Hoelder continuity of solutions of singular parabolic equations.- 1. Singular equations and the regularity theorems.- 2. The main proposition.- 3. Preliminaries.- 4. Rescaled iterations.- 5. The first alternative.- 6. Proof of Lemma 5.1. Integral inequalities.- 7. An auxiliary proposition.- 8. Proof of Proposition 7.1 when (7.6) holds.- 9. Removing the assumption (6.1).- 10. The second alternative.- 11. The second alternative concluded.- 12. Proof of the main proposition.- 13. Boundary regularity.- 14. Miscellaneous remarks.- 15. Bibliographical notes.- V. Boundedness of weak solutions.- 1. Introduction.- 2. Quasilinear parabolic equations.- 3. Sup-bounds.- 4. Homogeneous structures. 2.- 5. Homogeneous structures. The singular case 1 max\left\{ {1
- \frac{<!-- -->{2N}} {<!-- -->{N + 2}}} \right\}} \right) $$.- 9. Global iterative inequalities.- 10. Homogeneous structures and $$ 1 < p \leqslant max\left\{ {1
- \frac{<!-- -->{2N}} {<!-- -->{N + 2}}} \right\} $$.- 11. Proof of Theorems 3.1 and 3.2.- 12. Proof of Theorem 4.1.- 13. Proof of Theorem 4.2.- 14. Proof of Theorem 4.3.- 15. Proof of Theorem 4.5.- 16. Proof of Theorems 5.1 and 5.2.- 17. Natural growth conditions.- 18. Bibliographical notes.- VI. Harnack estimates: the casep>2.- 1. Introduction.- 2. The intrinsic Harnack inequality.- 3. Local comparison functions.- 4. Proof of Theorem 2.1.- 5. Proof of Theorem 2.2.- 6. Global versus local estimates.- 7. Global Harnack estimates.- 8. Compactly supported initial data.- 9. Proof of Proposition 8.1.- 10. Proof of Proposition 8.1 continued.- 11. Proof of Proposition 8.1 concluded.- 12. The Cauchy problem with compactly supported initial data.- 13. Bibliographical notes.- VII. Harnack estimates and extinction profile for singular equations.- 1. The Harnack inequality.- 2. Extinction in finite time (bounded domains).- 3. Extinction in finite time (in RN).- 4. An integral Harnack inequality for all 1 2).- 4. Hoelder continuity ofDu (the case 1 2).- 5. Estimating the local average of |Dw| (the casep> 2).- 6. Estimating the local averages of w (the casep> 2).- 7. Comparing w and y (the case max $$ \left\{ {1
- \tfrac{<!-- -->{2N}} {<!-- -->{N + 2}}} \right\} < p < 2 $$).- 8. Estimating the local average of |Dw|.- 9. Bibliographical notes.- XI. Non-negative solutions in ?T. The casep>2.- 1. Introduction.- 2. Behaviour of non-negative solutions as |x| ? ? and as t ? 0.- 3. Proof of (2.4).- 4. Initial traces.- 5. Estimating |Du|p?1 in ?T.- 6. Uniqueness for data inLloc1(RN).- 7. Solving the Cauchy problem.- 8. Bibliographical notes.- XII. Non-negative solutions in ?T. The case 1 The uniqueness theorem.- 6. An auxiliary proposition.- 7. Proof of the uniqueness theorem.- 8. Solving the Cauchy problem.- 9. Compactness in the space variables.- 10. Compactness in thetvariable.- 11. More on the time-compactness.- 12. The limiting process.- 13. Bounded solutions. A counterexample.- 14. Bibliographical notes.
- Volume
-
: gw ISBN 9783540940203
Description
This monograph evolved out of the 1990 Lipschitz Lectures presented by the author at the University of Bonn, Germany. It recounts recent developments in the attempt to understand the local structure of the solutions of degenerate and singular parabolic partial differential equations.
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