TY  - BOOK
AU  - Speck,Jared
TI  - Shock formation in small-data solutions to 3D quasilinear wave equations
T2  - Mathematical surveys and monographs
SN  - 9781470428570 
U1  - 510MS 23
PY  - 2016///
CY  - Providence
PB  - American Mathematical Society, 
KW  - Wave equation
KW  - Numerical solutions
KW  - Shock waves
KW  - Mathematics
KW  - Nonlinear differential equations
KW  - Quasilinearization
N1  - Includes bibliographical references and index; 1. Introduction --
2. Overview of the two main theorems --
3. Initial data, basic geometric constructions, and the future null condition failure factor --
4. Transport equations for the Eikonal function quanities --
5. Connection coefficients of the rescaled frmes and geometric --
6. Construction of the rotation vectorfields and their basic properties --
7. Definition of the commutation vectorfields and deformation tensor calculations --
8. Geometric operator commutator formulas and schematic notation for repeated differentiation --
9. The structure of the wave equation inhomogeneous terms after one commutation --
10. Energy and cone flux definitions and the fundamental divergence identities --
11. Avoiding derivative loss and other difficulties via modified quantities --
12. Small data, sup-norm bootstrap assumptions, and first pointwise estimates --
13. Sharp estimates for the inverse foliation density --
14. Square integral coerciveness and the fundamental square-integral-controlling quantities --
15. Top-order pointwise commutator estimates involving the Eikonal function --
16. Pointwise estimates for the easy error integrands and identification of the difficult error integrands corresponding to the commuted wave equation --
17. Pointwise estimates for the difficult error integrands corresponding to the commuted wave equation --
18. Elliptic estimates and sobolev embedding on the spheres --
19. Square integral estimates for the Eikonal function quantities that do not rely on modified quantities --
20. A priori estimates for the fundamental square-integral-controlling quantities --
21. Local well-posedness and continuation criteria --
22. The sharp classical lifespan theorem --
23. Proof of shock formation for nearly spherically symmetric data --
Appendices
N2  - In 1848 James Challis showed that smooth solutions to the compressible Euler equations can become multivalued, thus signifying the onset of a shock singularity. Today it is known that, for many hyperbolic systems, such singularities often develop. However, most shock-formation results have been proved only in one spatial dimension. Serge Alinhac's groundbreaking work on wave equations in the late 1990s was the first to treat more than one spatial dimension. In 2007, for the compressible Euler equations in vorticity-free regions, Demetrios Christodoulou remarkably sharpened Alinhac's results and gave a complete description of shock formation. In this monograph, Christodoulou's framework is extended to two classes of wave equations in three spatial dimensions. It is shown that if the nonlinear terms fail to satisfy the null condition, then for small data, shocks are the only possible singularities that can develop. Moreover, the author exhibits an open set of small data whose solutions form a shock, and he provides a sharp description of the blow-up. These results yield a sharp converse of the fundamental result of Christodoulou and Klainerman, who showed that small-datasolutions are global when the null condition is satisfied. Readers who master the material will have acquired tools on the cutting edge of PDEs, fluid mechanics,hyperbolic conservation laws, wave equations, and geometric analysis
ER  -