Modeling and Analysis of Patterns in Multi-constituent Systems with Long Range Interaction
发布时间:2018年12月21日
浏览次数:6681
发布者: Xiaoni Tan
主讲人: Chong Wang (McMaster University)
活动时间: 从 2018-12-25 10:30 到 11:30
场地: Room 78201, Jingchunyuan 78, BICMR
Abstract:
Skin pigmentation, animal coats and block copolymers can be considered as multi-constituent inhibitory systems. Exquisitely structured patterns arise as orderly outcomes of the self-organization principle. Analytically, via the sharp interface model, patterns can be studied as nonlocal geometric variational problems. The free energy functional consists of an interface energy and a long range Coulomb-type interaction energy. The admissible class is a collection of Caccioppoli sets with fixed volumes. To overcome the difficulty that the admissible class is not a Hilbert space, we introduce internal variables. Solving the energy functional for stationary sets is recast as a variational problem on a Hilbert space. We prove the existence of a core-shell assembly and the existence of disc assemblies in ternary systems and also a triple-bubble-like stationary solution in a quaternary system. Numerically, via the diffuse interface model, one open question related to the polarity direction of double bubble assemblies is answered. Moreover, it is shown that the average size of bubbles in a single bubble assembly depends on the sum of the minority constituent volumes and the long range interaction coefficients. One further identifies the ranges for volume fractions and the long range interaction coefficients for double bubble assemblies.
Self-Introduction:
Dr. Chong Wang currently is a postdoctoral fellow in the Department of Mathematics and Statistics at McMaster University, Canada. She received her PhD degree in 2018 from the George Washington University, USA. Her research focuses on the analysis and numerics of mathematical models in materials science, physics and biology. In particular, her research addresses analysis of nonlocal and non-convex variational problems, as well as mathematical modeling and computations of problems with long range interaction.