2018
DOI: 10.1002/mop.31034
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Liquid crystal based tunable spurline filters with notch frequencies at 50 and 85 GHz

Abstract: Electrically tunable double‐spurline notch filters with a nematic liquid crystal (LC) material as a dielectric medium were modeled, manufactured, and characterized. The spurlines, which were embedded into an inverted microstrip, consisted of quarter‐wavelength resonant elements. A Finite Difference Time Domain solver was used to model the filters. Photolithography and thin film deposition were employed to create the filters, followed by standard LC cell assembly. The filters, with central notch frequencies at … Show more

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Cited by 7 publications
(5 citation statements)
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“…The transition also contains cutouts on the CPW ground planes and the microstrip groundplane (outlined in green) to match impedance across the LC boundary. This arrangement was based on similar designs reported in other publications [26,27].…”
Section: Phased Array Antenna Assembly Design and Constructionmentioning
confidence: 96%
See 1 more Smart Citation
“…The transition also contains cutouts on the CPW ground planes and the microstrip groundplane (outlined in green) to match impedance across the LC boundary. This arrangement was based on similar designs reported in other publications [26,27].…”
Section: Phased Array Antenna Assembly Design and Constructionmentioning
confidence: 96%
“…The design parameters shown in Table 2 were used for modeling the LC section of the device. The epsilon values were determined for 30 GHz using a method developed by Economou et al [26].…”
Section: Phased Array Antenna Assembly Design and Constructionmentioning
confidence: 99%
“…A constant volume of a single liquid of varying permittivity can be used. These liquid crystals have been used in microwave applications such as: Tunable band-pass filters [14][15][16][17], Tunable band-stop/notch filters [18][19][20], reconfigurable reflectarray [21,22]. Nevertheless, the tuning potential of such systems essentially depends on the permittivity range achievable by the liquid crystals used.…”
Section: Introductionmentioning
confidence: 99%
“…Metasurfaces have attracted great attention thanks to their unique properties, and are widely applied in different areas due to their potential to control electromagnetic (EM) waves [1][2][3]. Among them, manipulating the polarization state of EM waves in the microwave frequency range is essential for applications such as antennas [4][5][6], wireless communication [7][8][9], and radar wave absorption [10][11][12].…”
Section: Introductionmentioning
confidence: 99%