A sensitivity analysis of frequency selective surfaces based structure at THz frequency Host Publication: Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective at the Medelhavsmuseet Authors: S. Islam, J. Stiens and R. Vounckx Publisher: SPIE Publication Date: Apr. 2010 Number of Pages: 6 ISBN: 978-0-8194-8184-9
Abstract: This work presents a sensitivity analysis for the resonance frequency and bandwidth of dielectric supported Split Ring Resonator (SRR) metmaterial in THz frequency. The different designed parameters have been considered and their parametric sensitivities on resonance frequency and on bandwidth have been analyzed. The finite integral technique is used to simulate the structure and the numerical techniques are used to obtain the resonance frequency and bandwidth sensitivities as a function of the designed parameters. The analysis for sensitivity of the scattering parameters of metamaterial is especially very important in THz frequency range. The resonance frequency and the bandwidth are the main characteristics of a resonator Frequency Selective Surface (FSS). The development of FSS in mm-wave frequency range can be simplified by the knowledge of the sensitivity of their main characteristics as a function of the considered physical parameters. The FSS structure considered in this section is the square split ring resonator with copper strip lines backed by Roger 4003C dielectric substrate. The FSS structure is simulated by using CST Microwave Studio transient solver. The resonance frequency and the bandwidth sensitivities as function structural parameters of FSS are obtained by using the simulation data. In this analysis, normal incident TE modes are considered.
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