Modeling of microwave ring resonators using the finite-difference time-domain method (FDTD)

Semouchkina, Elena; Cao, Wenwu; Mittra, R.

doi:10.1002/(sici)1098-2760(20000320)24:6<392::aid-mop10>3.0.co;2-j

Cited by 10 publications

(4 citation statements)

References 12 publications

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“…Besides, it is generally used in microwave devices such as couplers, filters, mixers, oscillators, and antennas. The process of this method can be explained as a relationship between frequency and resonance 26 . A structure of ring resonator method consists of a ring on substrate and transmission line to measure the magnitude of S 21 (dB) and phase values.…”

Section: Ring-resonator Measurement Methodsmentioning

confidence: 99%

Demonstration of Container Effects on Recognition Process of Liquids Using a Ring-Resonator Measurement Method

Öztürk

2019

Sci Rep

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Before separating or classifying hazardous/unsafe liquids, a system must be identified which can best measure certain liquids. The preferred measurement system can be useful, quick response, rapid measurement and so on. However, these features are not sufficient to classify the liquids in different containers. Especially at security points, containers of liquids carried by people may be different. Therefore, it has been investigated whether classification can be made by using the response of different containers to electromagnetic radiation. When the ring resonator measurement method is used in the 1–1.4 GHz frequency range, a successful separation process is carried out, even if the containers were made of different materials. Nevertheless, a well-known k-means algorithm has been used to analyze the measurement results of selected liquids.

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Section: Ring-resonator Measurement Methodsmentioning

confidence: 99%

Demonstration of Container Effects on Recognition Process of Liquids Using a Ring-Resonator Measurement Method

Öztürk

2019

Sci Rep

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“…There are several models, from which dielectric constant and other microwave studies can be elaborately investigated like “magnetic wall model”, “planar waveguide model” transmission‐line analysis, and finite‐difference time‐domain method (Semouchkina et al , 2000), parallel plate method, coaxial line method and resonator method (Chou et al , 2008). However, at present there are no commercially well equipments which measure the dielectric constants, losses of thick and bulky materials at microwave frequencies.…”

Section: Introductionmentioning

confidence: 99%

Microwave studies by perturbation of Ag thick film microstrip ring resonator using superstrate of bismuth strontium manganites

Mathad

Jadhav

Puri

2013

Microelectronics International

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Purpose -The purpose of this paper was to determine the complex permittivity of bismuth strontium manganites (Bi 12 x Sr x MnO 3 ) in the 8-12 GHz range by using perturbation of Ag thick film microstrip ring resonator (MSRR) due to superstrate of both bulk and thick film. Design/methodology/approach -The BSM ceramics were synthesized by simple low cost solid state reaction method and their fritless thick films were fabricated by screen printing technique on alumina substrate. A comparison has been made between the X band response of Ag thick film microstrip ring resonator due to perturbation of bulk and thick film Bi 12 x Sr x MnO 3 ceramic. Findings -The bulk and thick film superstrate decreases the resonance frequency of MSRR. In this technique even minor change in the properties of superstrate material changes the MSRR response. Variation of strontium content also influences microwave conductivity and penetration depth of bulk and thick films. Originality/value -The microwave complex permittivity decreases with increase in Sr content in bismuth manganite and it is higher for bulk as compared to its thick films. The superstrate on Ag thick film microstrip ring resonator is an efficient tool capable of detecting the composition dependent changes in microwave properties of ceramic bulk and thick films.

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“…The interest of researchers and commercial communication industry engineers to these structures has recently increased due to the application of ferroelectric thin-film substrates, high-temperature superconducting microstrip lines and metamaterials in ring resonator fabrication [11][12][13][14]. Because of this wide range of applications, many researches have been made to analyze these structures [1,[15][16][17][18][19]. But in the previous works, the method of analysis was based on Hankel Transform Method (HTM) without considering feeding line.…”

Section: Introductionmentioning

confidence: 99%

“…But in the previous works, the method of analysis was based on Hankel Transform Method (HTM) without considering feeding line. In [16], the analysis of microstrip ring resonator considering probe excitation is presented and in [17][18][19], the analysis of ring resonator coupled to feeding line is presented by making the use of FDTD [17,18] and ABCD and Y-admittance matrices [19]. In this paper, using the moment method in the spectral domain, full wave analysis of the structure is presented.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Capasitively Coupled Microstrip-Ring Resonator Based on Spectral Domain Method

Rezaiesarlak¹,

Kashani²,

Mehrshahi³

2008

PIER Letters

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Abstract-In this paper, full-wave analysis of a microstrip-ring resonator capacitively coupled to Microstrip transmission line is presented. The method of the analysis is based on spectral domain in rectangular coordinate system. Since this coordinate system is not compatible with ring structure, triangular basis functions have been utilized for the current distributions on the ring surface. Applying Galerkin's method in spectral domain, the resonant frequencies of the structure and current distributions on the conductors are calculated and the effects of various parameters are studied. To verify the method of analysis, our results are compared with others and the accuracy of the method has been confirmed.

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Modeling of microwave ring resonators using the finite-difference time-domain method (FDTD)

Cited by 10 publications

References 12 publications

Demonstration of Container Effects on Recognition Process of Liquids Using a Ring-Resonator Measurement Method

Demonstration of Container Effects on Recognition Process of Liquids Using a Ring-Resonator Measurement Method

Microwave studies by perturbation of Ag thick film microstrip ring resonator using superstrate of bismuth strontium manganites

Analysis of Capasitively Coupled Microstrip-Ring Resonator Based on Spectral Domain Method

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