Computer modeling of microwave stripline resonators for non-invasive sensing

B. J. Minasyan; L. A. Odabashyan; Zh. A. Baghdasaryan; A. Zh. Babajanyan; K. Lee

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Computer modeling of microwave stripline resonators for non-invasive sensing

B. J. Minasyan ; L. A. Odabashyan ; Zh. A. Baghdasaryan ; A. Zh. Babajanyan ; K. Lee

Proceedings of the Yerevan State University. Physical and mathematical sciences, Tome 53 (2019) no. 1, pp. 60-64

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Résumé

Microwave stripline resonators of rectangular and double rectangular shapes for non-invasive sensing have been designed and investigated experimentally and numerically. The resonator of single rectangular shape has had a resonance at about $4.32\ GHz$ for S$_{21}$ and the resonator of double rectangular shape has had resonances at about $3.5\ GH$z for S$_{21}$ and $5.85\ GHz$ for S$_{11}$. The simulation results for the sensitivity of the single rectangular and double rectangular resonators were $-0.023\ dB/(mg/dL)$ (glucose concentration) and $0.0143\ dB/(mg/dL)$ (NaCl concentration), respectively. The electromagnetic field distribution of the resonators was visualized and compared using computer simulation software HFSS. The obtained data have shown the accuracy of resonators as a non-invasive sensor for biophysical applications.

Keywords: Microwaves stripline resonator, glucose sensing.

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     title = {Computer modeling of microwave stripline resonators for non-invasive sensing},
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B. J. Minasyan; L. A. Odabashyan; Zh. A. Baghdasaryan; A. Zh. Babajanyan; K. Lee. Computer modeling of microwave stripline resonators for non-invasive sensing. Proceedings of the Yerevan State University. Physical and mathematical sciences, Tome 53 (2019) no. 1, pp. 60-64. http://geodesic.mathdoc.fr/item/UZERU_2019_53_1_a8/