Kyle R. Chickering, Ryan C. Moreno-Vasquez, Gavin Pandya
Published 2021-05-31Version 1
For $0<\alpha<\frac{1}{3}$ we construct unique solutions to the fractal Burgers equation $\partial_t u + u\partial_xu + (-\Delta)^\alpha u = 0$ which develop a first shock in finite time, starting from smooth generic initial data. This first singularity is asymptotically self-similar, stable $H^6$ perturbations of a stable, self-similar Burgers shock profile. Furthermore, we are able to compute the spatio-temporal location and H\"older regularity for the first singularity. There are many results showing that gradient blowup occurs in finite time for the supercritical range, but the present result is the first example where singular solutions have been explicitly constructed and so precisely characterized.
A note on singularities in finite time for the constrained Willmore flow
On the impossibility of finite-time splash singularities for vortex sheets
On formation of singularity for non-isentropic Navier-Stokes equations without heat-conductivity
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