Abstract
The metamaterials are structures that show the different electromagnetic properties than usual transmission line/medium, such as negative values of permittivity, permeability and refraction. Due to unique behaviour of metamaterial, it gives passband or stopband response for a certain frequencies: a property called resonant. Typical response of metamaterial is narrow band and resonant at particular frequency based on its dimension. A method is proposed in this paper to control or shift the response frequency of tri-ring resonator without altering its dimension.
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References
Ekmekci E, Turhan-Sayan G (2009) Comparative investigation of resonance characteristics and electrical size of the double-sided SRR, BC-SRR and conventional SRR type metamaterials for varying substrate parameters. Prog Electromagnet Res B 12:35–62
Ekmekci E et al (2011) Frequency-tunable metamaterials using broadside-coupled split ring resonators. Phys Rev B 83:193103
Rigi-Tamandani A et al (2013) Wideband planar split ring resonator based metamaterials. Prog Electromagnet Res M 28:115–128
Duran-Sindreu M et al (2012) Electrically small resonators for planar metamaterial, microwave circuit and antenna design: a comparative analysis. Appl Sci 2:375–395
Islam SS et al (2014) Design and analysis of a new double negative metamaterial. J Microelectron, Electron Compon Mater 44:218–223
Turkmen O, Ekmekci E, Turhan-Sayan G (2011) A new multi-ring SRR type metamaterial design with multiple magnetic resonances. Prog Electromagnet Res Symp Proc 20–23
Ekmeki E, Strikwerda AC, Fan K (2011) Frequency tunable metamaterial designs using near field coupled SRR structures in the terahertz region. In: International conference on infrared, millimeter, and terahertz waves, pp 1–2
Sassi I, Talbi L, Hettak K (2015) Compact multi-band filter based on multi-ring complementary split ring resonators. Prog Electromagnet Res 57:127–135
Kadam NT, Janwalkar KS, Odhekar AA (2015) Parameter extraction for negative index metamaterials. Int J Comput Appl 0975–8887
Si Y, Zhang Z (2015) Extraction of metamaterial parameters. In: IEEE 6th international symposium on microwave, antenna, propagation, and EMC technologies, pp 608–610
Szabo Z, Park GH, Hedge R, Li EP (2010) A unique extraction of metamaterial parameters based on Kramers–Kronig relationship. IEEE Trans Microw Theor Tech 2646–2653
Chen X, Grzegorczyk TM, Wu BI, Pacheco J Jr, Kong JA (2004) Robust method to retrieve the constitutive parameters of metamaterials. Phys Rev E70 016608
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Tamrakar, M., Usha Kiran, K. (2018). Frequency Tuning Method for Small Profile Metamaterial Based on Tri-Ring Resonator. In: Gnanagurunathan, G., Sangeetha, R., Kiran, K. (eds) Optical And Microwave Technologies. Lecture Notes in Electrical Engineering, vol 468. Springer, Singapore. https://doi.org/10.1007/978-981-10-7293-2_19
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DOI: https://doi.org/10.1007/978-981-10-7293-2_19
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