Electromagnetic metamaterials (MMs) are articial composites that exhibit exceptional physical characteristics. Their design, which relies on the retrieving of the eective medium parameters, is usually a very time-consuming process because of the high number of full-wave simulations involved in this task. To alleviate the related computational burden, we propose to use a Multi-delity Surrogate Modelling (MFSM) approach. Numerical results demonstrate that this methodology turns out to be promising for a quick evaluation of the scattering parameters from which the eective constitutive parameters of a MM are retrieved, as shown by two numerical examples.
Quick Retrieval of Effective Electromagnetic Metamaterial Parameters by Using a Multi-fidelity Surrogate Modelling Approach / Angiulli, Giovanni; Versaci, Mario; Calcagno, Salvatore; Di Barba, Paolo. - In: THE EUROPEAN PHYSICAL JOURNAL. APPLIED PHYSICS. - ISSN 1286-0042. - 90:2(2020), pp. 1-7. [10.1051/epjap/2020200014]
Quick Retrieval of Effective Electromagnetic Metamaterial Parameters by Using a Multi-fidelity Surrogate Modelling Approach
Giovanni Angiulli
;Mario Versaci;Salvatore Calcagno;
2020-01-01
Abstract
Electromagnetic metamaterials (MMs) are articial composites that exhibit exceptional physical characteristics. Their design, which relies on the retrieving of the eective medium parameters, is usually a very time-consuming process because of the high number of full-wave simulations involved in this task. To alleviate the related computational burden, we propose to use a Multi-delity Surrogate Modelling (MFSM) approach. Numerical results demonstrate that this methodology turns out to be promising for a quick evaluation of the scattering parameters from which the eective constitutive parameters of a MM are retrieved, as shown by two numerical examples.| File | Dimensione | Formato | |
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