Open AccessMORE EFFICIENCY OF TRANSVERSE WAVE APPROACH (TWA) BY APPLYING ANISOTROPIC MESH TECHNIQUE (AMT) FOR FULL-WAVE ANALYSIS OF MICROWAVE PLANAR STRUCTURES
Author(s) -
Mohamed Ayari,
Taoufik Aguili,
H. Baudrand
Publication year - 2009
Publication title -
progress in electromagnetics research b
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.208
H-Index - 47
ISSN - 1937-6472
DOI - 10.2528/pierb09022001
Subject(s) - planar , anisotropy , microwave , transverse plane , materials science , acoustics , computer science , physics , optics , structural engineering , telecommunications , engineering , computer graphics (images)
MORE EFFICIENCY OF TRANSVERSE WAVE AP-PROACH (TWA) BY APPLYING ANISOTROPIC MESHTECHNIQUE (AMT) FOR FULL-WAVE ANALYSIS OFMICROWAVE PLANAR STRUCTURESM. AyariDepartment of mathematicsVirginia Polytechnic Institute and state university-BlacksburgVA, USAT. AguiliSyscom LaboratoryNational Engineering SchoolB.P 37 Le belvedere 1002 Tunis, TunisiaH. BaudrandEM Research & Design, RCEM17 Rue Denis Papin, 31500 Toulouse, FranceAbstract—The present paper sets out to present a numericalelectromagnetic (EM) method TWA for EM eld modeling of planarstructures. Combining both the benets of TWA process and themodeling of planar excitation source, an optimization techniqueAMT is applied and evaluated in context of RF integrated-circuitapplications. The computational complexity of TWA process isexamined and the obtained simulation results are found to be ingood agreement with literature. Index Terms- Transverse waveapproach (TWA), anisotropic mesh technique (AMT), computationalcomplexity, planar structures
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