Evanescent-Field Excited Surface Plasmon-Enhanced U-Bent Fiber
We report the design, fabrication, and testing of a humidity sensor based on an optical fiber-based evanescent wave probe. The fiber was bent into a U-shape and de-cladded at the
Related Topics:
Ushaped Fiber Optic Evanescent
Investigations on evanescent wave absorbance sensitivity of step
In this study, step-etched U-bent glass optical fiber (600 µm core etched to ~ 200 µm) sensor probes with IgG loading efficiency show ~2-fold higher evanescent wave absorbance sensitivity at lower
Temperature-independent polymer optical fiber
To determine the temperature independence of a U-shaped, polymer fiber-optic evanescent wave sensor and to exploit the advantages of polymer optical fibers,
Sensitivity Enhancement in U-Shaped Evanescent Wave Fiber Sensor
In this article, sensitivity enhancement in U-shaped evanescent wave fiber optic sensor (EWFS) has been reported. The overall effect of surface roughness, material deformation, and probe
Sensitivity Enhancement in U-Shaped Evanescent
In this paper, sensitivity enhancement in U-shaped evanescent wave fiber optic sensor has been reported. The overall effect of surface roughness,
U-shaped evanescent wave optical fibre sensor based on a porphyrin
A layer-by-layer (LbL) approach was used for the deposition of coatings with a nano-meter thickness onto a multimode optical fibre that was bent into a U-shape with the aim of demonstrating a fibre
Fiber optic evanescent wave absorption-based sensors: A detailed
The fundamental working principle of FOEW sensor is discussed in detail followed by the rigorous discussion on the different geometries of FOEW sensor probes such as straight, tapered, U
Temperature-independent polymer optical fiber evanescent wave sensor
To determine the temperature independence of a U-shaped, polymer fiber-optic evanescent wave sensor and to exploit the advantages of polymer optical fibers, we investigated the possibility of the
Passive Fiber Optic Evanescent Wave Sensor for the
Abstract: The study of refractive index of liquids over a range of 10oC to 60oC shows very interesting results to design and develop a highly sensitive passive fiber optic sensor based on a U-shaped
Comparative analysis of U-bend fiber optic evanescent wave sensors
This research is intended to examine the Graphene oxide/Molybdenum disulfide (GO/MoS 2) coated U-bend fiber optic evanescent-based sensor by comparing its sensitivity, sensor