A semi-definite optimization method for maximizing the shared band gap of topological photonic crystals
DOI10.1016/J.JCP.2024.113538MaRDI QIDQ6670715
Could not fetch data.
Publication date: 24 January 2025
Published in: Journal of Computational Physics (Search for Journal in Brave)
Numerical optimization and variational techniques (65K10) Periodic solutions to PDEs (35B10) General topics in linear spectral theory for PDEs (35P05) Numerical methods for eigenvalue problems for boundary value problems involving PDEs (65N25) Variational methods for eigenvalues of operators (49R05) PDEs in connection with control and optimization (35Q93)
Cites Work
- Title not available (Why is that?)
- Title not available (Why is that?)
- Bragg structure and the first spectral gap
- Bandgap optimization of two-dimensional photonic crystals using semidefinite programming and subspace methods
- An efficient method for band structure calculations in 2D photonic crystals
- An efficient method for band structure calculations in 3D photonic crystals
- Elliptic operators with honeycomb symmetry: Dirac points, edge states and applications to photonic graphene
- Band structure optimization of two-dimensional photonic crystals in \(H\)-polarization
- Edge states and the valley Hall effect
- Topologically protected edge modes in one-dimensional chains of subwavelength resonators
- A short course on topological insulators. Band structure and edge states in one and two dimensions
- Inverse design of quantum spin Hall-based phononic topological insulators
- Analysis.
- Topologically protected states in one-dimensional continuous systems and Dirac points
- Maximizing Band Gaps in Two-Dimensional Photonic Crystals
- Berry Phases in Electronic Structure Theory
- Extremal spectral gaps for periodic Schrödinger operators
- Continuous bulk and interface description of topological insulators
- Convergence of the Supercell Method for Defect Modes Calculations in Photonic Crystals
- Mathematical theory for topological photonic materials in one dimension
- Floquet theory for partial differential equations
- Edge Modes in Subwavelength Resonators in One Dimension
This page was built for publication: A semi-definite optimization method for maximizing the shared band gap of topological photonic crystals
Report a bug (only for logged in users!)Click here to report a bug for this page (MaRDI item Q6670715)
