A New ADE-TLM for Lorentz Dispersive Medium
We present a new numerical algorithm for the simulation of dispersive media. This model named ADE-TLM is based on the transmission line modeling method with the symmetrical condensed node (SCN-TLM) and novel voltage sources and exploits the polarization current density J along with the voltage elect...
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| Published in | Journal of Russian laser research Vol. 42; no. 2; pp. 237 - 242 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.03.2021
Springer Nature B.V |
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| Online Access | Get full text |
| ISSN | 1071-2836 1573-8760 |
| DOI | 10.1007/s10946-021-09956-3 |
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| Abstract | We present a new numerical algorithm for the simulation of dispersive media. This model named ADE-TLM is based on the transmission line modeling method with the symmetrical condensed node (SCN-TLM) and novel voltage sources and exploits the polarization current density
J
along with the voltage electric as well as the average approximation. We extend the proposed algorithm to media with dispersions described by multiple second-order Lorentz poles; the obtained results of the reflection and transmission coefficients are compared with analytical solutions. |
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| AbstractList | We present a new numerical algorithm for the simulation of dispersive media. This model named ADE-TLM is based on the transmission line modeling method with the symmetrical condensed node (SCN-TLM) and novel voltage sources and exploits the polarization current density J along with the voltage electric as well as the average approximation. We extend the proposed algorithm to media with dispersions described by multiple second-order Lorentz poles; the obtained results of the reflection and transmission coefficients are compared with analytical solutions. We present a new numerical algorithm for the simulation of dispersive media. This model named ADE-TLM is based on the transmission line modeling method with the symmetrical condensed node (SCN-TLM) and novel voltage sources and exploits the polarization current density J along with the voltage electric as well as the average approximation. We extend the proposed algorithm to media with dispersions described by multiple second-order Lorentz poles; the obtained results of the reflection and transmission coefficients are compared with analytical solutions. |
| Author | Attalhaoui, Abdellah El Faylali, Hanan Habibi, Mohamed Bezzout, Hamid |
| Author_xml | – sequence: 1 givenname: Abdellah surname: Attalhaoui fullname: Attalhaoui, Abdellah email: abdellah.attalhaoui@gmail.com organization: The Laboratory of Electrical Engineering and Energy Systems, Ibn Tofail University – sequence: 2 givenname: Hamid surname: Bezzout fullname: Bezzout, Hamid organization: The Laboratory of Informatics, Systems and Optimization, Ibn Tofail University – sequence: 3 givenname: Mohamed surname: Habibi fullname: Habibi, Mohamed organization: The Laboratory of Electrical Engineering and Energy Systems, Ibn Tofail University – sequence: 4 givenname: Hanan surname: El Faylali fullname: El Faylali, Hanan organization: The Laboratory of Informatics, Systems and Optimization, Ibn Tofail University |
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| References_xml | – reference: El AdraouiSKhalidMZugariAOptik20141252762014Optik.125..276A10.1016/j.ijleo.2013.06.049 – reference: H. El Faylali, M. Iben Yaich, and M. Khalladi, Int. J. Emerg. Trends Electric, Electron., 5, 119 (2013). – reference: JinHVahldieckRIEEE Trans. Microw. Theor. Tech.19944225541994ITMTT..42.2554J10.1109/22.339796 – reference: A. Taflove and S. C. Hagness, Computational Electrodynamics: The Finite-Difference Time-Domain Method, 3rd ed., Artech House, Norwood, UK, (2005). – reference: BalanisCAAdvanced Engineering Electromagnetics1989New YorkWiley – reference: LuebbersRJHunsbergerFIEEE Trans. Antennas Propag.19924012971992ITAP...40.1297L10.1109/8.202707 – reference: YangHWOptik201312411992013Optik.124.1199Y10.1016/j.ijleo.2012.03.009 – reference: KhalladiMIben YaichMIEICE Electron. Express2005237310.1587/elex.2.373 – reference: AbriniRIben YaichMKhalladiMIEICE Electron. Express2007449210.1587/elex.4.492 – reference: JohnsPBIEEE Trans. Microwave Theor. Tech.1987353701987ITMTT..35..370J10.1109/TMTT.1987.1133658 – reference: PaulJChristopoulosCThomasDWPIEEE Trans. Antennas Propag.19994715281999ITAP...47.1528P10.1109/8.805895 – reference: MounirhKEl AdraouiSCharifMOptik201512614792015Optik.126.1479M10.1016/j.ijleo.2015.04.032 – reference: KelleyDFLuebbersRJIEEE Trans. Antennas Propag.1996447921996ITAP...44..792K10.1109/8.509882 – reference: ChristopoulosCThe Transmission-Line Modeling Method (TLM)1995New YorkIEEE Series on Electromagnetic Wave Theory10.1109/9780470546659 – reference: K. Mounirh, S. El Adraoui, Y. Ekdiha, et al.. Prog. Electromag. Res., 64, 157 (2018). – reference: Iben YaichMKhalladiMZekikIMorenteJAIEEE Microw. Wireless Compon. Lett.20021229310.1109/LMWC.2002.802027 – volume: 47 start-page: 1528 year: 1999 ident: 9956_CR12 publication-title: IEEE Trans. Antennas Propag. doi: 10.1109/8.805895 – volume: 4 start-page: 492 year: 2007 ident: 9956_CR6 publication-title: IEICE Electron. Express doi: 10.1587/elex.4.492 – volume: 126 start-page: 1479 year: 2015 ident: 9956_CR5 publication-title: Optik doi: 10.1016/j.ijleo.2015.04.032 – volume-title: Advanced Engineering Electromagnetics year: 1989 ident: 9956_CR15 – ident: 9956_CR11 doi: 10.1002/0471654507.eme123 – volume: 40 start-page: 1297 year: 1992 ident: 9956_CR13 publication-title: IEEE Trans. Antennas Propag. doi: 10.1109/8.202707 – ident: 9956_CR8 doi: 10.2528/PIERM17110103 – volume: 42 start-page: 2554 year: 1994 ident: 9956_CR16 publication-title: IEEE Trans. Microw. Theor. Tech. doi: 10.1109/22.339796 – volume: 12 start-page: 293 year: 2002 ident: 9956_CR3 publication-title: IEEE Microw. Wireless Compon. Lett. doi: 10.1109/LMWC.2002.802027 – volume: 125 start-page: 276 year: 2014 ident: 9956_CR4 publication-title: Optik doi: 10.1016/j.ijleo.2013.06.049 – volume: 47 start-page: 1528 year: 1999 ident: 9956_CR2 publication-title: IEEE Trans. Antennas Propag. doi: 10.1109/8.805895 – volume-title: The Transmission-Line Modeling Method (TLM) year: 1995 ident: 9956_CR17 doi: 10.1109/9780470546659 – volume: 35 start-page: 370 year: 1987 ident: 9956_CR1 publication-title: IEEE Trans. Microwave Theor. Tech. doi: 10.1109/TMTT.1987.1133658 – volume: 44 start-page: 792 year: 1996 ident: 9956_CR9 publication-title: IEEE Trans. Antennas Propag. doi: 10.1109/8.509882 – volume: 2 start-page: 373 year: 2005 ident: 9956_CR10 publication-title: IEICE Electron. Express doi: 10.1587/elex.2.373 – volume: 124 start-page: 1199 year: 2013 ident: 9956_CR14 publication-title: Optik doi: 10.1016/j.ijleo.2012.03.009 – ident: 9956_CR7 |
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| SubjectTerms | Algorithms Electric potential Exact solutions Lasers Microwaves Numerical analysis Optical Devices Optics Photonics Physics Physics and Astronomy RF and Optical Engineering Transmission lines Voltage |
| Title | A New ADE-TLM for Lorentz Dispersive Medium |
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