学术报告
Global and blow-up solutions for 1D compressible Euler equations with time-dependent damping Prof. Ming Mei (梅茗教授) 加拿大Champlain College & McGill University
题目:Global and blow-up solutions for 1D compressible
Euler equations with time-dependent damping.
报告人:Prof. Ming Mei (梅茗教授)
加拿大Champlain College & McGill University
Abstract : This talk deals with the Cauchy problem for the 1D compressible Euler equations with time-dependent damping, where the time-vanishing damping in the like form of $/frac{/mu}{(1+t)^/lambda}$ makes the variety of the dynamic system. For $00$, or $/lambda=1$ but $/mu>2$, where $/lambda=1$ and $/mu=2$ is the critical case, when the derivatives of the initial data are small, but the initial data themselves are allowed to be arbitrarily large, the solutions are proved to exist globally in time; for these global solutions, we further technically determine what will be their corresponding asymptotic profiles, particularly in the critical case with /lambda=1, and then show the convergence with optimal rates; while, when the derivatives of the initial data are large at some points, then the solutions are still bounded, but their derivatives will blow up at finite time. For $/lambda=1$ and $0
This is a series of 3 joint works with Shaohua Chen, Shifeng Geng, Haitong Li, Jingyu Li, Yanping Lin and Kaijun Zhang.
时间:2019年7月5日(星期五)
上午10:00-11:00
地点:首都师范大学本部教二楼527教室
联系人:牛冬娟
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