Efficient spectral and spectral-element methods for transformation electromagnetics
This thesis is devoted to the computation and analysis of electromagnetic wave scattering problems, with particular applications in accurate simulation of invisibility cloaks arisen from the field of transformation electromagnetics (TE). An efficient spectral-element method (SEM) is proposed for sol...
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sg-ntu-dr.10356-694412023-02-28T23:46:54Z Efficient spectral and spectral-element methods for transformation electromagnetics Yang, Zhiguo Wang Li-Lian School of Physical and Mathematical Sciences DRNTU::Science::Mathematics This thesis is devoted to the computation and analysis of electromagnetic wave scattering problems, with particular applications in accurate simulation of invisibility cloaks arisen from the field of transformation electromagnetics (TE). An efficient spectral-element method (SEM) is proposed for solving general two-dimensional Helmholtz equations in anisotropic media. In practice, we adopt a transparent boundary condition (TBC) characterized by the Dirichlet- to-Neumann (DtN) map to reduce wave propagation in an unbounded domain to a bounded domain. We then introduce a semi-analytic technique to integrate the global TBC with local curvilinear elements seamlessly, which is accomplished by using a novel elemental mapping and analytic formulas for evaluating global Fourier coefficients on spectral-element grids exactly. From the perspective of TE, an invisibility cloak is devised by a singular coordinate transformation of Maxwell’s equations that leads to anisotropic materials coating the cloaked region to render any object inside invisible to observers outside. An important issue resides in the imposition of appropriate boundary conditions, i.e., cloaking boundary conditions (CBCs), in order to achieve perfect invisibility. Based upon the principle that a well-behaved electromagnetic field in the original space must be well-behaved in the transformed space as well, we propose new CBCs for circular, elliptic and polygonal invisibility cloaks from the essential “pole” conditions related to singular transformations. We emphasize that our proposal of CBCs is different from any existing ones. Last but not the least, this thesis is devoted to wavenumber explicit analysis of three-dimensional time-harmonic Maxwell’s equations in an exterior domain. The infinite domain is first reduced to a finite domain by using an exact spherical TBC involving the capacity operator. Remarkably, when the scatterer is a sphere, by using divergence-free vector spherical harmonic expansions of the fields, one can preserve divergence-free property of the electric and magnetic fields, and reduce the Maxwell’s system to two sequences of decoupled one-dimensional Helmholtz problems (in the radial direction) in a similar setting. This reduction not only leads to more efficient spectral-Galerkin algorithms, but also allows us to carry out, for the first time, wavenumber explicit analysis for 3-D time-harmonic Maxwell’s equations with exact transparent boundary conditions. We then use the transformed field expansion to deal with more general scatterers, and derive rigorous error estimates for the whole algorithm. Doctor of Philosophy (SPMS) 2017-01-04T05:23:23Z 2017-01-04T05:23:23Z 2017 Thesis Yang, Z. (2017). Efficient spectral and spectral-element methods for transformation electromagnetics. Doctoral thesis, Nanyang Technological University, Singapore. http://hdl.handle.net/10356/69441 10.32657/10356/69441 en 170 p. application/pdf |
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DRNTU::Science::Mathematics Yang, Zhiguo Efficient spectral and spectral-element methods for transformation electromagnetics |
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This thesis is devoted to the computation and analysis of electromagnetic wave scattering problems, with particular applications in accurate simulation of invisibility cloaks arisen from the field of transformation electromagnetics (TE). An efficient spectral-element method (SEM) is proposed for solving general two-dimensional Helmholtz equations in anisotropic media. In practice, we adopt a transparent boundary condition (TBC) characterized by the Dirichlet- to-Neumann (DtN) map to reduce wave propagation in an unbounded domain to a bounded domain. We then introduce a semi-analytic technique to integrate the global TBC with local curvilinear elements seamlessly, which is accomplished by using a novel elemental mapping and analytic formulas for evaluating global Fourier coefficients on spectral-element grids exactly. From the perspective of TE, an invisibility cloak is devised by a singular coordinate transformation of Maxwell’s equations that leads to anisotropic materials coating the cloaked region to render any object inside invisible to observers outside. An important issue resides in the imposition of appropriate boundary conditions, i.e., cloaking boundary conditions (CBCs), in order to achieve perfect invisibility. Based upon the principle that a well-behaved electromagnetic field in the original space must be well-behaved in the transformed space as well, we propose new CBCs for circular, elliptic and polygonal invisibility cloaks from the essential “pole” conditions related to singular transformations. We emphasize that our proposal of CBCs is different from any existing ones. Last but not the least, this thesis is devoted to wavenumber explicit analysis of three-dimensional time-harmonic Maxwell’s equations in an exterior domain. The infinite domain is first reduced to a finite domain by using an exact spherical TBC involving the capacity operator. Remarkably, when the scatterer is a sphere, by using divergence-free vector spherical harmonic expansions of the fields, one can preserve divergence-free property of the electric and magnetic fields, and reduce the Maxwell’s system to two sequences of decoupled one-dimensional Helmholtz problems (in the radial direction) in a similar setting. This reduction not only leads to more efficient spectral-Galerkin algorithms, but also allows us to carry out, for the first time, wavenumber explicit analysis for 3-D time-harmonic Maxwell’s equations with exact transparent boundary conditions. We then use the transformed field expansion to deal with more general scatterers, and derive rigorous error estimates for the whole algorithm. |
| author2 |
Wang Li-Lian |
| author_facet |
Wang Li-Lian Yang, Zhiguo |
| format |
Theses and Dissertations |
| author |
Yang, Zhiguo |
| author_sort |
Yang, Zhiguo |
| title |
Efficient spectral and spectral-element methods for transformation electromagnetics |
| title_short |
Efficient spectral and spectral-element methods for transformation electromagnetics |
| title_full |
Efficient spectral and spectral-element methods for transformation electromagnetics |
| title_fullStr |
Efficient spectral and spectral-element methods for transformation electromagnetics |
| title_full_unstemmed |
Efficient spectral and spectral-element methods for transformation electromagnetics |
| title_sort |
efficient spectral and spectral-element methods for transformation electromagnetics |
| publishDate |
2017 |
| url |
http://hdl.handle.net/10356/69441 |
| _version_ |
1759855811120594944 |