Perfectly Matched Layer for Cole-Cole Dispersive Media in DGTD Method
Simulating electromagnetic waves within biological tissues is critical for assessing electromagnetic effects in biological environment. Precise modeling of biological tissues in computational electromagnetics is therefore necessary. The Cole-Cole dispersive model based on the fractional power functi...
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| Published in | IEEE journal on multiscale and multiphysics computational techniques Vol. 9; pp. 320 - 329 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Piscataway
IEEE
2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
| ISSN | 2379-8815 2379-8815 |
| DOI | 10.1109/JMMCT.2024.3462529 |
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| Abstract | Simulating electromagnetic waves within biological tissues is critical for assessing electromagnetic effects in biological environment. Precise modeling of biological tissues in computational electromagnetics is therefore necessary. The Cole-Cole dispersive model based on the fractional power functions can more accurately describe the electrical characteristics of biological tissues in a wide frequency range than the typical dispersive model based on the integer power functions. Previous research on the time-domain simulation of the Cole-Cole medium is mainly based on the finite difference time domain (FDTD) method. Recently, researchers proposed a DEH scheme (Maxwell's equations with field variables D, E and H) discontinuous Galerkin time domain (DGTD) method to simulate wave propagation in the Cole-Cole dispersive media. However, it lacks the perfectly matched layer (PML) to truncate the Cole-Cole background media. This paper fills this gap by developing a PML for Cole-Cole background media in the DGTD method. |
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| AbstractList | Simulating electromagnetic waves within biological tissues is critical for assessing electromagnetic effects in biological environment. Precise modeling of biological tissues in computational electromagnetics is therefore necessary. The Cole-Cole dispersive model based on the fractional power functions can more accurately describe the electrical characteristics of biological tissues in a wide frequency range than the typical dispersive model based on the integer power functions. Previous research on the time-domain simulation of the Cole-Cole medium is mainly based on the finite difference time domain (FDTD) method. Recently, researchers proposed a DEH scheme (Maxwell's equations with field variables D, E and H) discontinuous Galerkin time domain (DGTD) method to simulate wave propagation in the Cole-Cole dispersive media. However, it lacks the perfectly matched layer (PML) to truncate the Cole-Cole background media. This paper fills this gap by developing a PML for Cole-Cole background media in the DGTD method. |
| Author | Qin, Xuebin Wang, Shuo Ren, Qiang Zhao, Xiaoying Zhou, Yuanguo Wu, Xuan |
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| SubjectTerms | Bioelectric phenomena Bioelectromagnetic modeling Biological effects Biological system modeling Biological tissues Cole-Cole dispersive model Computational electromagnetics discontinuous Galerkin time domain (DGTD) method Dispersion Electromagnetic modeling Electromagnetic radiation Finite difference methods Finite difference time domain method Frequency ranges Mathematical models Maxwell's equations Media Method of moments perfectly matched layer (PML) Perfectly matched layers Time-domain analysis Tissues Wave dispersion Wave propagation |
| Title | Perfectly Matched Layer for Cole-Cole Dispersive Media in DGTD Method |
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