Registered Data

[01371] A mixed element scheme of Helmholtz transmission eigenvalue problem for anisotropic media

  • Session Time & Room : 3E (Aug.23, 17:40-19:20) @E603
  • Type : Contributed Talk
  • Abstract : In this paper, we study the Helmholtz transmission eigenvalue problem for inhomogeneous anisotropic media in two and three dimension. Starting with a nonlinear fourth order formulation established by Cakoni, Colton and Haddar in 2009, by introducing some auxiliary variables, we present an equivalent mixed formulation for this problem, followed up with the finite element discretization. Using the proposed scheme, we rigorously show that the optimal convergence rate for the transmission eigenvalues both on convex and nonconvex domains can be expected. Moreover, by this scheme, we will obtain a sparse generalized eigenvalue problem whose size is so demanding even with a coarse mesh that its smallest few real eigenvalues fail to be solved by the shift and invert method. We partially overcome this critical issue by deflating the almost all of the ∞ eigenvalue of huge multiplicity, resulting in a drastic reduction of the matrix size without deteriorating the sparsity. Extensive numerical examples are reported to demonstrate the effectiveness and efficiency of the proposed scheme.
  • Classification : 65F15, 65M60, 65N25, 78M10
  • Format : Talk at Waseda University
  • Author(s) :
    • Qing Liu (School of Mathematics, Southeast University)
    • Tiexiang Li (School of Mathematics, Southeast University)
    • Shuo Zhang (Academy of Mathematics and System Sciences, Chinese Academy of Sciences)