On Stability Of Type Ii Blow Up For The Critical Nonlinear Wave Equation In R3 1

On Stability of Type II Blow Up for the Critical Nonlinear Wave Equation in $mathbb {R}^{3+1}$

Author : Joachim K Krieger

Publisher : American Mathematical Society

Page : 129 pages

File Size : 14,61 MB

Release : 2021-02-10

Category : Mathematics

ISBN : 147044299X

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Book Description

The author shows that the finite time type II blow up solutions for the energy critical nonlinear wave equation $ Box u = -u^5 $ on $mathbb R^3+1$ constructed in Krieger, Schlag, and Tataru (2009) and Krieger and Schlag (2014) are stable along a co-dimension three manifold of radial data perturbations in a suitable topology, provided the scaling parameter $lambda (t) = t^-1-nu $ is sufficiently close to the self-similar rate, i. e. $nu >0$ is sufficiently small. Our method is based on Fourier techniques adapted to time dependent wave operators of the form $ -partial _t^2 + partial _r^2 + frac 2rpartial _r +V(lambda (t)r) $ for suitable monotone scaling parameters $lambda (t)$ and potentials $V(r)$ with a resonance at zero.





Type II Blow Up Manifolds for the Energy Supercritical Semilinear Wave Equation

Author : Charles Collot

Publisher : American Mathematical Soc.

Page : 176 pages

File Size : 38,33 MB

Release : 2018-03-19

Category : Mathematics

ISBN : 147042813X

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Book Description

Our analysis adapts the robust energy method developed for the study of energy critical bubbles by Merle-Rapha¨el-Rodnianski, Rapha¨el-Rodnianski and Rapha¨el- Schweyer, the study of this issue for the supercritical semilinear heat equation done by Herrero-Vel´azquez, Matano-Merle and Mizoguchi, and the analogous result for the energy supercritical Schr¨odinger equation by Merle-Rapha¨el-Rodnianski.



Lectures on the Energy Critical Nonlinear Wave Equation

Author : Carlos E. Kenig

Publisher : American Mathematical Soc.

Page : 177 pages

File Size : 50,60 MB

Release : 2015-04-14

Category : Mathematics

ISBN : 1470420147

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Book Description

This monograph deals with recent advances in the study of the long-time asymptotics of large solutions to critical nonlinear dispersive equations. The first part of the monograph describes, in the context of the energy critical wave equation, the "concentration-compactness/rigidity theorem method" introduced by C. Kenig and F. Merle. This approach has become the canonical method for the study of the "global regularity and well-posedness" conjecture (defocusing case) and the "ground-state" conjecture (focusing case) in critical dispersive problems. The second part of the monograph describes the "channel of energy" method, introduced by T. Duyckaerts, C. Kenig, and F. Merle, to study soliton resolution for nonlinear wave equations. This culminates in a presentation of the proof of the soliton resolution conjecture, for the three-dimensional radial focusing energy critical wave equation. It is the intent that the results described in this book will be a model for what to strive for in the study of other nonlinear dispersive equations. A co-publication of the AMS and CBMS.











Mathematics of Wave Phenomena

Author : Willy Dörfler

Publisher : Springer Nature

Page : 330 pages

File Size : 14,35 MB

Release : 2020-10-01

Category : Mathematics

ISBN : 3030471748

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Book Description

Wave phenomena are ubiquitous in nature. Their mathematical modeling, simulation and analysis lead to fascinating and challenging problems in both analysis and numerical mathematics. These challenges and their impact on significant applications have inspired major results and methods about wave-type equations in both fields of mathematics. The Conference on Mathematics of Wave Phenomena 2018 held in Karlsruhe, Germany, was devoted to these topics and attracted internationally renowned experts from a broad range of fields. These conference proceedings present new ideas, results, and techniques from this exciting research area.