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Recent Developments in High-Order Numerical Methods for Multiscale/Multiphysics Partial Differential Equations

Organizer(s):
Name:	Affiliation:	Country:
Zheng Chen	University of Massachusetts Dartmouth	USA
Lin Mu	University of Georgia	USA
Yan Jiang	University of Science and Technology of China	Peoples Rep of China

Introduction:

Mathematical models represented by partial differential equations serve as indispensable tools across mathematical, scientific, and engineering domains. The pursuit of robust, efficient, highly accurate, and structure-preserving numerical algorithms remains a formidable challenge in simulating the multiscale/multiphysics features inherent in these models. The objective of this special session is to convene researchers and computational scientists to present and discuss recent advancements in the design, analysis, and implementation of numerical algorithms tailored for challenging partial differential equations. These equations encompass a diverse range of complexities, including hyperbolic equations, time-dependent equations, and coupled systems. The applications span a broad spectrum, encompassing fluid dynamics, flow and transport phenomena in porous media, magneto-hydrodynamics, material science, semiconductor device simulation, oceanography, and beyond.

All Abstracts

List of abstracts and speakers
Name	Affiliation	Title
Afaf Bouharguane	University of Bordeaux	Discontinuous Galerkin approximation of the stationary Boussinesq system with a Navier-type boundary condition
Jie Du	East China Normal University	Well-balanced positivity-preserving high-order discontinuous Galerkin methods for Euler equations with gravitation
xinlong feng	xinjiang university	Compact difference finite element method for high-dimensional convection-diffusion equations
Ruchi Guo	Sichuan University	Solve electromagnetic interface problems on unfitted meshes
Qiaolin He	Sichuan University	Modelling of compressible multi-component two-phase flow with multi-component Navier boundary condition
Seulip Lee	Tufts University	Stabilized numerical simulations for the transport equation in a fluid
Shihao Liu	KTH Royal Institute of Technology	A new type of simplified inverse Lax-Wendroff boundary treatment for hyperbolic conservation law
Tuo Liu	King Abdullah University of Science and Technology	Explicit Runge-Kutta methods for quadratic optimization via gradient flow equations
Yong Liu	Academy of Mathematics and Systems Science, CAS	Efficient and Parallel Solution of High-order Continuous Time Galerkin for Dissipative and Wave Propagation Problems
Jianxian QIU	Xiamen University	A moment-based Hermite WENO scheme with unified stencils for hyperbolic conservation laws
Qi Tao	Beijing University of Technology	A local discontinuous Galerkin method for the Novikov equation
Jilu Wang	Harbin Institute of Technology (Shenzhen)	Optimal L2 error estimates of unconditionally stable FE schemes for the Cahn-Hilliard-Navier-Stokes system
Ruishu Wang	Jilin University	A penalty free weak Galerkin finite element method on quadrilateral meshes
Xiang Wang	Jilin University	The Finite volume element method with global conservation law
Kailiang Wu	Southern University of Science and Technology	Recent Advances in High-Order Bound-Preserving Schemes and Theory