摘要: We construct counterexamples to the local existence of low-regularity solutions to elastic wave equations and to the ideal compressible magnetohydrodynamics (MHD) system in three and two spatial dimensions (3D and 2D). For 3D, inspired by the recent works of Christodoulou, we generalize Lindblad’s classic results on the scalar wave equation by showing that the Cauchy problems for 3D elastic waves and for 3D MHD system are ill-posed in $H^3$ and $H^2$, respectively. Both elastic waves and MHD are physical systems with multiple wave-speeds. We further prove that the ill-posedness is caused by instantaneous shock formation, which is characterized by the vanishing of the inverse foliation density. In particular, when the magnetic field is absent in MHD, we also provide a desired low-regularity ill-posedness result for the 3D compressible Euler equations, and it is sharp with respect to the regularity of the fluid velocity. Our proofs for elastic waves and for MHD are based on a coalition of a carefully designed algebraic approach and a geometric approach. In 2D, we prove the $H^11/4$ and $H^7/4$ ill-posedness for the elastic wave equations and ideal MHD system (also for Euler equations). Compared with the 3D case, the construction of ill-posed profile in 2D is more delicate. While in 3D, the shock formation argument is more involved due to the more complicated structures of the systems. This talk is based on joint works with Xinliang An and Silu Yin.

报告人简介：

陈昊阳，2021年于复旦大学获得博士学位，2021年至今为新加坡国立大学数学系Research Fellow. 主要研究方向为数学广义相对论，非线性波动方程及可压流体力学中的singularity formation.

报告时间和地点：2023年9月18日（周一）， 下午3:00--4:30

腾讯会议：137178108

联系人：陶涛 邮箱：taotao@sdu.edu.cn