Tamm-surface plasmon resonances from nanograting-coupled plasmonic-photonic multilayer structure for an integrated fiber-optic sensing application

Liang, Yuzhang; Wei, Xinran; Chu, Shuwen; Zhang, Xin; Fang, Yurui; Peng, Wei

doi:10.1088/1361-6463/acd7fa

Cited by 6 publications

(3 citation statements)

References 30 publications

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“…In recent years, the metafiber [16][17][18][19] (or named fiber meta-tip [20] and Lab-on-Fiber (LOF) [21]) has emerged as a promising solution to address the limitations above. By directly fabricating metasurfaces on the end of optical fiber, the metafiber technology has taken a significant step towards the integration of photothermal conversion of metasurfaces.…”

Section: Introductionmentioning

confidence: 99%

Design and full analysis of a metafiber-based photothermal bio-probe with perfect conversion efficiency

Zhu,

Jiang,

Zhao

2024

Phys. Scr.

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The metafiber, which involves fabricating metasurfaces at optical fiber tips, has shown potential as an integrated optical sensing or photothermal conversion platform. In this study, we present a metafiber-based photothermal bio-probe with a high optical absorption efficiency of 99.83%. Physical mechanisms underlying the efficiency are elucidated using coherent perfect absorption and multiple reflection theories. In our simulation, the probe exhibits ultra-fast heating/cooling rates, high temperature localization, steep temperature gradients, and robust response to environmental factors. In particular, only 1.0 mW of incident power is needed to generate the temperature gradient required for cell capture or drug delivery, while the corresponding temperature near the fiber tip is still safe for biological tissue. These advantages make our designed bio-probe as an ideal platform in various of applications, such as living cells capture, drug delivery, and local hyperthermia.

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Section: Introductionmentioning

confidence: 99%

Design and full analysis of a metafiber-based photothermal bio-probe with perfect conversion efficiency

Zhu,

Jiang,

Zhao

2024

Phys. Scr.

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“…This method not only enhances the sensitivity but also ensures the sensors are robust, lightweight, and compact [22,23]. Combining the advantages of SPR structures and optical fibers is therefore possible by applying plasmonic nanostructures on an optical fiber endfacet, which leads to miniaturized, reliable, lightweight, and label-free sensors [9,22,24,25].…”

Section: Introductionmentioning

confidence: 99%

Hybrid Si-Au plasmonic sensor on the end-facet of a dual-core optical fiber enhanced by hotspots: a theoretical study

Mahani,

Mokhtari,

Berini

2024

Phys. Scr.

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We propose an efficient hybrid Si-Au sensor on the end-facet of a dual-core single-mode optical fiber. The design incorporates slanted Si grating couplers on the two cores, interconnected by a plasmonic waveguide bearing subwavelength corrugations. The corrugations enhance the surface sensitivity by creating regions of strongly enhanced fields - plasmonic hotspots. Unlike conventional Si waveguide grating couplers, we employ slanted slits for unidirectional coupling/decoupling between TM-polarized core light and surface plasmon polaritons. Our structure results in about 3% core-to-core (TM-to-TM) coupling efficiency, while also providing high bulk and surface sensitivities of about 1000 nm/RIU and 1.66 nm/nm, respectively. The sensor can be interrogated remotely in a transmission arrangement. The sensing medium can be probed by dipping the fiber tip directly therein. Potential applications include remote sensing, brain studies, or in-vivo biosensing.

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“…Researchers have been able to fabricate miniature optical fibres with diameters as small as a few micrometres, allowing for integration into microfluidic devices and other compact systems [ 29 ]. Miniaturization enhances portability, facilitates point-of-care testing, and enables in vivo sensing [ 30 ]. Progress in optical fibre biosensors has enabled the development of multiplexed sensing platforms [ 31 , 32 ].…”

Section: Introductionmentioning

confidence: 99%

Optical Fibre-Based Sensors—An Assessment of Current Innovations

Khonina,

Kazanskiy,

Butt

2023

Biosensors

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Optical fibre sensors are an essential subset of optical fibre technology, designed specifically for sensing and measuring several physical parameters. These sensors offer unique advantages over traditional sensors, making them gradually more valuable in a wide range of applications. They can detect extremely small variations in the physical parameters they are designed to measure, such as analytes in the case of biosensing. This high sensitivity allows them to detect subtle variations in temperature, pressure, strain, the refractive index of analytes, vibration, and other environmental factors with exceptional accuracy. Moreover, these sensors enable remote sensing capabilities. Since light signals are used to carry information, the sensing elements can be placed at distant or inaccessible sites and still communicate the data back to the central monitoring system without signal degradation. In recent times, different attractive configurations and approaches have been proposed to enhance the sensitivity of the optical fibre-based sensor and are briefly explained in this review. However, we believe that the choice of optical fibre sensor configuration should be designated based on the specific application. As these sensors continue to evolve and improve, they will play an increasingly vital role in critical monitoring and control applications across various industries.

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Tamm-surface plasmon resonances from nanograting-coupled plasmonic-photonic multilayer structure for an integrated fiber-optic sensing application

Cited by 6 publications

References 30 publications

Design and full analysis of a metafiber-based photothermal bio-probe with perfect conversion efficiency

Design and full analysis of a metafiber-based photothermal bio-probe with perfect conversion efficiency

Hybrid Si-Au plasmonic sensor on the end-facet of a dual-core optical fiber enhanced by hotspots: a theoretical study

Optical Fibre-Based Sensors—An Assessment of Current Innovations

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