Theoretical research of chalcogenide waveguide CH<sub>4</sub> sensor based on lift‐off method

Liu, Yang; Pi, Mingquan; Zheng, Chuantao

doi:10.1002/mop.33614

Cited by 2 publications

(1 citation statement)

References 20 publications

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“…The split ring resonator (SRR) method has developed a lot, they have different shapes in the MRS structure. They can be circular, 13 coupled, 40 T‐ and L‐shaped, 11 EBG‐structure, 53 and open‐loop 8 . One of the resonator types is the complementary SRR 54–56 technique that can change the field intensity.…”

Section: Introductionmentioning

confidence: 99%

Permittivity measurement of fluidics with high‐sensitivity by chandelier form microwave sensor

Navaei,

Rezaei

2023

Micro & Optical Tech Letters

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In this manuscript, a microwave resonance sensor (MRS) was presented composed of interdigital structure, meander structure, chandelier‐form, and T‐shaped structure. The combination of four structures results in a good electromagnetic field strength at the sensing location. It caused increased sensitivity. Due to the high use of methanol in industry, samples have been selected from this material. The samples used are methanol and water solution and place on location sensing. For measurement was used samples with 80% methanol with a permittivity of 59%–10% methanol with a permittivity of 77. Also, tissue samples including sheep, chicken and fish have been used to measure the proposed sensor. The resonance frequency of the samples changes in the range of 2.14‐1.46 GHz. The sensitivity of the presented MRS is 2.6% and the Q‐factor is 1252.

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Section: Introductionmentioning

confidence: 99%

Permittivity measurement of fluidics with high‐sensitivity by chandelier form microwave sensor

Navaei,

Rezaei

2023

Micro & Optical Tech Letters

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Design of On‐Chip Multi‐Slot Chalcogenide Waveguide for Mid‐Infrared Methane Sensing

Ma,

Qin,

et al. 2024

Micro & Optical Tech Letters

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A chalcogenide (ChG) multi‐slot waveguide gas sensor with ChG as the core layer and silicon dioxide (SiO2) as the under‐cladding layer is proposed. Multi‐slot waveguide can be used in the mid‐infrared gas measurement. The optimized power confinement factor (PCF) of the ChG multi‐slot waveguide can be up to 41.3%, which is ∼20% higher than that of the optimized single‐slot waveguide. At the absorption line located at 3.291 μm for methane (CH4) measurement, the limits of detection (LoD) of single‐slot, double‐slot, triple‐slot, quadruple‐slot waveguide sensors are determined to be 68.9, 57.4, 52, 48.6 parts per million (ppm), respectively. Compared with other waveguide sensors in the mid‐infrared, the PCF of the proposed multi‐slot ChG/SiO2 waveguide sensor is enhanced by five times, which has the potential for highly sensitive gas sensing.

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Theoretical research of chalcogenide waveguide CH₄ sensor based on lift‐off method

Cited by 2 publications

References 20 publications

Permittivity measurement of fluidics with high‐sensitivity by chandelier form microwave sensor

Permittivity measurement of fluidics with high‐sensitivity by chandelier form microwave sensor

Design of On‐Chip Multi‐Slot Chalcogenide Waveguide for Mid‐Infrared Methane Sensing

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Theoretical research of chalcogenide waveguide CH4 sensor based on lift‐off method

Cited by 2 publications

References 20 publications

Permittivity measurement of fluidics with high‐sensitivity by chandelier form microwave sensor

Permittivity measurement of fluidics with high‐sensitivity by chandelier form microwave sensor

Design of On‐Chip Multi‐Slot Chalcogenide Waveguide for Mid‐Infrared Methane Sensing

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Theoretical research of chalcogenide waveguide CH₄ sensor based on lift‐off method