Influence of electromagnetic (EM) waves polarization modes on surface plasmon resonance

Optical sensor based on surface plasmon resonance are widely used for various applications. In this paper, an optimization of EM waves polarization modes for the occurrence of SPR by using a modified optical waveguiding assembly has been discussed. A 633 nm of linearly polarized He-Ne laser was appo...

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Bibliographic Details
Main Authors: Murat, Noor Faezah, Mukhtar, Wan Maisarah, Menon, P Susthitha, Abdul Rashid, Affa Rozana, Ahmad Dasuki, Karsono, Awangku Yussuf, Awangku Abdul Rahman
Format: Conference Proceeding
Language:English
Subjects:
Critical angle
Lasers
Optical measuring instruments
Polarization
Polarizers
Reflectance
Rotation
Surface plasmon resonance
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Summary:Optical sensor based on surface plasmon resonance are widely used for various applications. In this paper, an optimization of EM waves polarization modes for the occurrence of SPR by using a modified optical waveguiding assembly has been discussed. A 633 nm of linearly polarized He-Ne laser was appointed as a light source. The polarization modes were controlled by rotating the position of He-Ne laser. It was found that the optimum SPR signal with reflectance, R = 0.21 a.u and SPR angle, θSPR = 48° can be obtained as the position of laser was rotated at 90°, with the presence of polarizer. The location of the critical angle was observed at θC = 46°. For the validation purpose, a simulation based on Fresnel equation was conducted where the percentage difference between the experimental and theoretical results were analyzed. The percentage difference between experimental and theoretical results for both θSPR and θC were 9.09% and 15.00% respectively. In conclusion, an excellent agreement between the theoretical and experimental findings proved the stability of this SPR setup, where the EM waves polarization can easily be controlled by manipulating the position of laser.
ISSN:2100-014X
2101-6275
2100-014X
DOI:10.1051/epjconf/201716201008