Resonant frequencies of a combination of split rings: Experimental, analytical and numerical study

Radkovskaya, A.; Shamonin, Mikhail; Stevens, C.J.; Faulkner, Grahame; Edwards, D.J.; Shamonina, E.; Solymár, L.

doi:10.1002/mop.21021

Cited by 49 publications

(19 citation statements)

References 16 publications

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“…3 shows the effect of changing the outer radius of the uPVC pipe, varying from 6mm to 14mm. The sensor behaves similarly to the single split ring detailed in [10], and in fact when the uPVC is replaced by air, the simulated resonant frequency is 1.77-GHz, which matches the numerical result of a 10mm radius single split ring in [10]. Fig.…”

Section: Liquid Sensing Methodssupporting

confidence: 73%

Chipless RF liquid sensor

Cole

Almalki

et al. 2015

2015 IEEE MTT-S International Microwave and RF Conference (IMaRC)

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Abstract-A method for the wireless evaluation of the dielectric permittivity of liquids is presented. The use of a thinfilm, slotted waveguide sleeve around a standard unplasticised polyvinyl chloride pipe is proposed. Wireless interrogation of the slot with a plane wave excites a resonant mode whose frequency is dependent on the dielectric permittivity within the pipe. The proposed method allows for measurements to be taken in situ with no need for samples. The device has good potential for very low-cost monitoring applications, which may require real-time, continuous assessment.

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Section: Liquid Sensing Methodssupporting

confidence: 73%

Chipless RF liquid sensor

Cole

Almalki

et al. 2015

2015 IEEE MTT-S International Microwave and RF Conference (IMaRC)

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“…Many theoretical descriptions of the magnetic response of SRR systems are given in terms of the inductance and capacitance of the structure, while only few studies have dealt with the microscale electrodynamic problem, mostly focusing on the asymptotic region of the scattered fields. The effective permeability may be deduced experimentally from comparison of reflectance measurements to model calculations or by fitting transmission and reflection amplitudes to standard expressions derived by assuming the system to be non‐spatially dispersive .…”

Section: Introductionmentioning

confidence: 99%

Magnetic Response of Metamaterials

Mochán

2018

Physica Status Solidi (b)

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We present a general numerical approach for the calculation of the non‐local macroscopic dielectric response of a binary metamaterial made of arbitrary non‐magnetic materials with any geometry. From the spatial dispersion of the permittivity, characterized by its dependence on the wavevector, we obtain the corresponding effective local macroscopic permeability of the metamaterial. We illustrate our computational approach by calculating the permeability of two‐dimensional split‐ring resonators and validate the results through comparison with those of simple models. Our scheme may be further applied to arbitrary geometries. We discuss the limitations of the local permeability approach.

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“…Their resonant frequencies and guiding properties were studied before [15][16][17][18]. The dimensions of the first type (the inner radius, width, height, and the width of the gap) are [ Fig.…”

Section: Methodsmentioning

confidence: 99%