Dr Stefano Giani stefano.giani@durham.ac.uk
Associate Professor
We prove the convergence of an adaptive finite element method for computing the band structure of two-dimensional periodic photonic crystals with or without compact defects in both the TM and TE polarization cases. These eigenvalue problems involve non-coercive elliptic operators with discontinuous coefficients. The error analysis extends the theory of convergence of adaptive methods for elliptic eigenvalue problems to photonic crystal problems, and in particular deals with various complications which arise essentially from the lack of coercivity of the elliptic operator with discontinuous coefficients. We prove the convergence of the adaptive method in an oscillation-free way and with no extra assumptions on the initial mesh, beside the conformity and shape regularity. Also we present and prove the convergence of an adaptive method to compute efficiently an entire band in the spectrum. This method is guaranteed to converge to the correct global maximum and minimum of the band, which is a very useful piece of information in practice. Our numerical results cover both the cases of periodic structures with and without compact defects.
Giani, S. (2012). Convergent adaptive finite element methods for photonic crystal applications. Mathematical Models and Methods in Applied Sciences, 22(10), https://doi.org/10.1142/s0218202512500285
Journal Article Type | Article |
---|---|
Publication Date | Oct 1, 2012 |
Deposit Date | Feb 12, 2013 |
Publicly Available Date | Apr 20, 2015 |
Journal | Mathematical Models and Methods in Applied Sciences |
Print ISSN | 0218-2025 |
Electronic ISSN | 1793-6314 |
Publisher | World Scientific Publishing |
Peer Reviewed | Peer Reviewed |
Volume | 22 |
Issue | 10 |
DOI | https://doi.org/10.1142/s0218202512500285 |
Keywords | Second-order problems, Eigenvalues, Finite element methods, Adaptive algorithm, Convergence, Photonic crystals, Oscillation-free. |
Related Public URLs | http://eprints.nottingham.ac.uk/1418/1/pcfs_conv.pdf |
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Copyright Statement
Electronic version of an article published as Mathematical models and methods in applied sciences, 22, 10, 2012, 1250028, DOI: 10.1142/S0218202512500285 © copyright World Scientific Publishing Company http://www.worldscientific.com/worldscinet/m3as
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