Metamaterial Control of Hybrid Multifunctional High-Tc Superconducting Photonic Crystals for 1D Quasi-periodic Structure Potential Applications

Aly, Arafa H.; Mohamed, Doaa

doi:10.1590/1980-5373-mr-2019-0695

Cited by 29 publications

(6 citation statements)

References 38 publications

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“…The Gorter-Casmir two fluid model is adopted to describe the electromagnetic response of the superconductor materials 26,27 . By adopting some approximations the relative permittivity of superconductor can be written as:…”

Section: Theoretical Modelsmentioning

confidence: 99%

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Tunability and Fano Resonance Properties in Different Types of One-Dimensional Superconductor Photonic Crystals

et al. 2021

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The Fano resonance and EIR properties in different topological one-dimensional superconductor photonic crystals has been investigated theoretically using the Transfer Matrix Method (TMM). Different types of periodic heterostructures are studied and they are designed by alternating pairs of superconductor materials such (Nb/BSCCO), (Rb 3 C 60 / YBa 2 Cu3O 7 ) and (K 3 C 60 /(BiPb) 2 Sr 2 Ca 2 Cu 3 O y ). All artificial periodic structures are sacked by dielectric cap layer at different induced fields. To exam the efficiency of the reported structures, different parameters are used for analysis such as layers thicknesses, temperature, angle of incidence, the kind of superconductor materials and the dielectric constant of the cap layer. The investigation results exhibit the presence of tunable Fano resonances and EIR resonance peak accompanied by asymmetrical line shape and they are very sensitive to the dielectric cap layer, the superconductor materials and the wave incidence angle.

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Section: Theoretical Modelsmentioning

confidence: 99%

“…Where, c and λ L denote the velocity of light in vacuum and the temperature dependent London penetration depth 26,27 noted as follows:…”

Section: Theoretical Modelsmentioning

confidence: 99%

Tunability and Fano Resonance Properties in Different Types of One-Dimensional Superconductor Photonic Crystals

et al. 2021

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“…Owing to the exceptional EM responses of PhC, many research groups are keenly involved in designing the PhCs with variety of materials such as semiconductors, metals, metamaterials, and superconductors, etc [19,20]. Semiconductor-based PhCs are the most researched devices due to their tunable bandgap characteristics accomplished by thermally changing dielectric properties of the semiconductors.…”

Section: Introductionmentioning

confidence: 99%

Design and analysis of 1D photonic crystal doped with magnetized cold plasma defect for application of single/multi-channel tunable narrowband filter

Panda¹,

Pukhrambam²

2022

Phys. Scr.

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The present research demonstrates the tunable filtering properties of a single/multi-channel filter based on 1D photonic crystal (PhC), which is designed with dielectric materials (A, B) and magnetized cold plasma (P). The proposed filter has a configuration of A/BMA/P/BN(A/B)MTransmission spectra of the structure is investigated for both right-hand polarization and left-hand polarization configurations of the plasma material by employing the well-known transfer matrix method. It is found that number of period of the plasma layer (N) decides the single-channel and multi-channel operation of the filter. It is revealed that the external magnetic field can be manipulated to tune the frequency of the filter. Also, it is found that the geometrical parameters such as thickness of the plasma layer, plasma density, and incident angle play a significant role in tuning the defect mode frequency. Moreover, the color map plot is studied to provide a clear insight of shifting nature of the defect mode frequency. Quality factor of the filter is evaluated vis-à-vis different geometrical parameters. Our considered structure can be the mainstay for filtering applications in microwave regions, and can find suitable applications in dense wavelength division multiplexing and high speed signal processing.

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“…Photonic crystals (PCs) recently become one of the amazing favorite methods used in integrated optical circuits 1,2 , and many authors employing PCs in many valuable applications [3][4][5][6][7][8][9][10] . Photonic crystals consist of a multilayer of dielectric materials with low and high refractive indices that control the propagation of light.…”

Section: Introductionmentioning

confidence: 99%

Novel Biosensor Detection of Tuberculosis Based on Photonic Band Gap Materials

et al. 2021

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Tuberculosis is one of the most widespread infectious and deadliest diseases in the world. The death percentage is larger than that in the case of the current Coronavirus. Bio-photonic sensors represent a promising option for developing reliable, simple, and affordable tools for the effective detection of tuberculosis. In this paper, a novel design of an optical biosensor will be used as a tuberculosis detector based on a resonance cavity with high sensitivity in one-dimensional photonic crystals demonstrated theoretically. The results show that the increase of the defect layer thickness shifts the defect mode to a longer wavelength region. Besides, it is shifted to a shorter wavelength region via the increase of the incidence angle. The change in thickness of the defect layer and incident angle of light cause an optimization for our suggested structure and the sensitivity reaches 1390 nm/RIU. Our structure is very simple for industrial design.

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Metamaterial Control of Hybrid Multifunctional High-Tc Superconducting Photonic Crystals for 1D Quasi-periodic Structure Potential Applications

Cited by 29 publications

References 38 publications

Tunability and Fano Resonance Properties in Different Types of One-Dimensional Superconductor Photonic Crystals

Tunability and Fano Resonance Properties in Different Types of One-Dimensional Superconductor Photonic Crystals

Design and analysis of 1D photonic crystal doped with magnetized cold plasma defect for application of single/multi-channel tunable narrowband filter

Novel Biosensor Detection of Tuberculosis Based on Photonic Band Gap Materials

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