On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks
In this paper, we present analytic formulas of the temporal convolution kernel functions involved in the time-domain non-reflecting boundary condition (NRBC) for the electromagnetic scattering problems. Such exact formulas themselves lead to accurate and efficient algorithms for computing the NRBC f...
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sg-ntu-dr.10356-1606032022-07-27T07:21:11Z On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks Wang, Bo Yang, Zhiguo Wang, Li-lian Jiang, Shidong School of Physical and Mathematical Sciences Science::Mathematics Electromagnetic Wave Scattering Anisotropic and Dispersive Medium In this paper, we present analytic formulas of the temporal convolution kernel functions involved in the time-domain non-reflecting boundary condition (NRBC) for the electromagnetic scattering problems. Such exact formulas themselves lead to accurate and efficient algorithms for computing the NRBC for domain reduction of the time-domain Maxwell’s system in R3. A second purpose of this paper is to derive a new time-domain model for the electromagnetic invisibility cloak. Different from the existing models, it contains only one unknown field and the seemingly complicated convolutions can be computed as efficiently as the temporal convolutions in the NRBC. The governing equation in the cloaking layer is valid for general geometry, e.g., a spherical or polygonal layer. Here, we aim at simulating the spherical invisibility cloak. We take the advantage of radially stratified dispersive media and special geometry, and develop an efficient vector spherical harmonic-spectral-element method for its accurate simulation. Compared with limited results on FDTD simulation, the proposed method is optimal in both accuracy and computational cost. Indeed, the saving in computational time is significant. Ministry of Education (MOE) The research of the first author is supported by NSFC (Grants 11771137 and 12022104), the Construct Program of the Key Discipline in Hunan Province and a Scientific Research Fund of Hunan Provincial Education Department (No. 16B154). The research of the third author is supported by the Ministry of Education, Singapore, under its MOE AcRF Tier 2 Grants (MOE2018-T2-1-059 and MOE2017-T2-2-144). 2022-07-27T07:20:08Z 2022-07-27T07:20:08Z 2021 Journal Article Wang, B., Yang, Z., Wang, L. & Jiang, S. (2021). On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks. Journal of Scientific Computing, 86(2). https://dx.doi.org/10.1007/s10915-020-01354-2 0885-7474 https://hdl.handle.net/10356/160603 10.1007/s10915-020-01354-2 2-s2.0-85098892132 2 86 en MOE2018-T2-1-059 MOE2017-T2-2-144 Journal of Scientific Computing © 2021 Springer Science+Business Media, LLC, part of Springer Nature. All rights reserved. |
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Science::Mathematics Electromagnetic Wave Scattering Anisotropic and Dispersive Medium Wang, Bo Yang, Zhiguo Wang, Li-lian Jiang, Shidong On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| description |
In this paper, we present analytic formulas of the temporal convolution kernel functions involved in the time-domain non-reflecting boundary condition (NRBC) for the electromagnetic scattering problems. Such exact formulas themselves lead to accurate and efficient algorithms for computing the NRBC for domain reduction of the time-domain Maxwell’s system in R3. A second purpose of this paper is to derive a new time-domain model for the electromagnetic invisibility cloak. Different from the existing models, it contains only one unknown field and the seemingly complicated convolutions can be computed as efficiently as the temporal convolutions in the NRBC. The governing equation in the cloaking layer is valid for general geometry, e.g., a spherical or polygonal layer. Here, we aim at simulating the spherical invisibility cloak. We take the advantage of radially stratified dispersive media and special geometry, and develop an efficient vector spherical harmonic-spectral-element method for its accurate simulation. Compared with limited results on FDTD simulation, the proposed method is optimal in both accuracy and computational cost. Indeed, the saving in computational time is significant. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Wang, Bo Yang, Zhiguo Wang, Li-lian Jiang, Shidong |
| format |
Article |
| author |
Wang, Bo Yang, Zhiguo Wang, Li-lian Jiang, Shidong |
| author_sort |
Wang, Bo |
| title |
On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| title_short |
On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| title_full |
On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| title_fullStr |
On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| title_full_unstemmed |
On time-domain NRBC for Maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| title_sort |
on time-domain nrbc for maxwell's equations and its application in accurate simulation of electromagnetic invisibility cloaks |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160603 |
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1739837472008830976 |