Explore wave enhancement techniques through spectral optimization in this 57-minute virtual seminar presented by Nilima Nigam from Simon Fraser University. Delve into an efficient approach for optimizing transmission signals between two points in a cavity at a given frequency by altering boundary conditions from Dirichlet to Neumann. Learn about the monotonicity of eigenvalues in mixed boundary value problems and the sensitivity of Green's function to small boundary condition changes. Discover highly accurate calculation methods for mixed Dirichlet-Neumann eigenvalues using a layer potential approach. Gain insights into metamaterial resonators, visualization techniques, and the oneshot optimization approach. Examine spectral characterization, boundary integral methods, and asymptotic expansions. Explore practical applications through examples involving kite-shaped domains and higher frequency domains.
Wave Enhancement Through Spectral Optimization - 33rd IMAGINE Seminar
Society for Industrial and Applied Mathematics via YouTube
Overview
Syllabus
Introduction
Metamaterial resonators
Visualisation
Outline
Notation
Greens Function
Design Variable
Optimization
Oneshot Approach
Spectral Characterization
Monotonicity
Boundary Integral Approach
Nucleation
Why Boundary Integral
Asymptotic Expansion
Generalized Riches Theorem
Generalized Argument Principle
Integral Operator
Algorithm Sketch
Asymptotic Formula
Mixed Problem
Kite Shaped Domain
Higher Frequency Domain
Example Problem
Question
Taught by
Society for Industrial and Applied Mathematics
