The MN-fiber sensor is the most effec-tive optical fiber sensor to measure refractive index (RI). Refractive index measurement and calibration are very important for biotechnol-ogy...
Direct Manufacturer A refractive index sensor based on a multi-core micro/nano fiber is proposed for low refractive index solutions. At first, the mode field distribution of the tapered multi-core fiber is analyzed with the finite
Direct Manufacturer A multiplexed and spatially-resolved optical fiber tip sensor is proposed and demonstrated for multi-point refractive index (RI) sensing based on a microwave-photonic interrogation technique.
Direct Manufacturer Particle size and solid loading, which influence the slurry''s rheological properties, light scattering behavior, and optical characteristics, including UV-light absorption and refractive index.
Direct Manufacturer The sensing region of the optical fiber with a diameter of 125 µm used as the sensor was reduced to a waist diameter of 10 µm along a length of 2.25 cm. The sensor exhibits highly sensitive
Direct Manufacturer In this paper, we propose and demonstrate a photosensitive polymer-based micro-nano long-period fiber grating (PPMN-LPFG) for refractive index (RI) sensing.
Direct Manufacturer Optical sensing is an emerging field that may replace electronic sensing, in the same way that electronic sensing has replaced traditional mechanical sensing. In this project we explore the methods of
Direct Manufacturer In response to the issue that the refractive index detection range of the PCF-SPR sensor is relatively narrow, thereby restricting its application scenarios, this paper presents a wide-range
Direct Manufacturer The experimental results show that refractive index sensitivity of the sensor is –986 nm/refractive index unit (RIU), and the signal of the sensor has little noise. The CFBG-FP sensor not only has high
Direct Manufacturer Herein, an SPR refractive index sensor composed of micro-nano optical fibers (MNFs) is designed to detect analytes in the refractive index range
Direct Manufacturer Refractive index (RI) monitoring is crucial in numerous fields, including biochemical analysis, medical diagnostics, gas concentration, and food safety surveillance. [1–4] All-fiber optic
Direct Manufacturer Recently, microfiber-optic sensors with high sensitivity, fast response times, and a compact size have become an area of interest that integrates fiber
Direct Manufacturer Refractive index (RI) sensors are of great interest for label-free optical biosensing. A tapered optical fiber (TOF) RI sensor with micron-sized waist diameters can dramatically enhance
Direct Manufacturer In this study, a 3 × 3 microfiber coupler sensing structure is fabricated by the fusion taper technology, and the mode coupling distribution of its light energy is numerically simulated by the
Direct Manufacturer A microfluidic fiber-optic refractive index (RI) sensor based on an in-line Fabry-Perot (FP) interferometer, which is formed by a silica tube sandwiched by two microstructured fibers (MFs), which can be
Direct Manufacturer In conclusion, we demonstrated a simple, inexpensive, and scalable approach to the application of nano-optomechanical structures in fiber sensing, estimated their mass sensing
Direct Manufacturer The potential of suitable for realizing simultaneous multi-parameter measurement. A novel refractive index (RI) sensor based on middle-tapered multicore fiber (TMCF) is proposed and
Direct Manufacturer Herein, an SPR refractive index sensor composed of micro-nano optical fibers (MNFs) is designed to detect analytes in the refractive index range between 1.33 and 1.43. Analysis by the finite element
Direct Manufacturer In this paper, we propose a novel refractive index sensor with large dynamic range based on fiber Bragg grating in the nano-bore optical fiber. The spectral responses of grating on the filling
Direct Manufacturer Abstract A localized surface plasmon resonance (LSPR) sensor based on tapered optical fiber (TOF) using hollow gold nanoparticles (HAuNPs) for
Direct Manufacturer Abstract This research presents an artificial intelligence (AI)-driven machine learning (ML) approach for accurately measuring refractive index (RI) values across both lower and higher regimes
Direct Manufacturer Multi-core micro/nano fiber combines mode interference and strong evanescent field characteristics, which can monitor the change of external refractive index by using the drift of interference spectrum.
Direct Manufacturer Abstract: A refractive index sensor based on a multi-core micro/nano fiber is proposed for low refractive index solutions. At first, the mode field distribution of the tapered multi-core fiber is analyzed with the
Direct Manufacturer In this paper, a micro-nano fiber structure sensor for measuring salt concentration of seawater is proposed. The sensor uses a fusion splicer to fuse a 2 cm lon.
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