Fabrication and simulation studies on D-shaped optical fiber sensor via surface plasmon resonance
Document Type
Article
Publication Date
1-1-2017
Abstract
This paper describes simulation and experimental methods for designing a D-shaped surface plasmon resonance (SPR) fibre sensor. The sensor consists of two set-up approaches. Finite element method is used in simulation on the fibre sensor device. Two experimental methods for detecting relative intensity are used by varying the wavelength of the optical signal sources and the thickness of gold layer coated on the D-shaped fibre. In the first method, the sensor device works by detecting the relative intensity of two optical signal sources having different wavelengths. In the second set-up, the relative intensity between two D-shaped fibres coated with different thicknesses of gold is measured when a single signal source is launched at the input. The difference in intensities of the signal outputs is used to estimate the refractive index at the sensing region. A prototype SPR D-shaped fibre sensor has been fabricated and the experimental results show good agreement with simulation.
Keywords
D-shaped fiber, Surface plasmon resonance, Gold layer, Finite element method
Divisions
PHYSICS
Funders
University Malaya Research [grant number RU 001-2014, PO 038-2014A and PG215-2016A]
Publication Title
Journal of Modern Optics
Volume
64
Issue
14
Publisher
Taylor & Francis