Critical Sharp Front for Doubly Nonlinear Degenerate Diffusion Equations with Time Delay
Abstract
This paper is concerned with the critical sharp traveling wave for doubly nonlinear diffusion equation with time delay, where the doubly nonlinear degenerate diffusion is defined by with and . The doubly nonlinear diffusion equation is proved to admit a unique sharp type traveling wave for the degenerate case , the so-called slow-diffusion case. This sharp traveling wave associated with the minimal wave speed is monotonically increasing, where the minimal wave speed satisfies for any time delay . The sharp front is -smooth for , and piecewise smooth for . Our results indicate that time delay slows down the minimal traveling wave speed for the doubly nonlinear degenerate diffusion equations. The approach adopted for proof is the phase transform method combining the variational method. The main technical issue for the proof is to overcome the obstacle caused by the doubly nonlinear degenerate diffusion.
Cite
@article{arxiv.2103.04966,
title = {Critical Sharp Front for Doubly Nonlinear Degenerate Diffusion Equations with Time Delay},
author = {Tianyuan Xu and Shanming Ji and Ming Mei and Jingxue Yin},
journal= {arXiv preprint arXiv:2103.04966},
year = {2022}
}
Comments
arXiv admin note: text overlap with arXiv:1909.11751