Influence of the Sub-peak of Secondary Surface Plasmon Resonance onto the Sensing Performance of a D-shaped Photonic Crystal Fibre Sensor

Suoda Chu; K. Nakkeeran; Abdosllam M. Abobaker; Sumeet S. Aphale; S. Sivabalan; P Ramesh Babu; K. Senthilnathan

doi:10.1109/JSEN.2019.2953393

Influence of the Sub-peak of Secondary Surface Plasmon Resonance onto the Sensing Performance of a D-shaped Photonic Crystal Fibre Sensor

Suoda Chu, K. Nakkeeran , Abdosllam M. Abobaker, Sumeet S. Aphale, S. Sivabalan, P Ramesh Babu, K. Senthilnathan

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Abstract

In this paper, we mainly investigate the sensing performance of a fabricable 6-fold D-shaped photonic crystal fibre sensor based on the surface plasmon resonance (SPR). Its resonance couplings between fundamental core mode and
three surface plasmonic modes which have different electric filed distributions for analytes of various refractive indices have been studied in detail. We firstly observe two different types of SPRs, namely, ‘dielectric like’ resonance with low-loss peak and ‘plasmon like’ resonance with high-loss peak, by analysing the
electric field distribution of the fibre modes. Then, we discuss the influence of the secondary SPR over the main SPR which is directly related to the limitation on the detection sensing range of the proposed sensor. In order to mitigate the adverse effect of the sub-peak of the secondary SPR on the sensor’s sensing
performance, we reduce the thickness of analyte’s binding layer from 1500 nm to 500 nm. Thus, the sensing range of the proposed sensor can be tuned from 1.33-1.41 to 1.33-1.45 at the cost of a reduced maximum sensitivity from 7900 nm/RIU to 5300 nm/RIU. Owning to the simple structure design of the proposed sensor, we envisage that this highly sensitive Dshaped PCF-SPR sensor could be developed as a versatile and competitive instrument with a large and flexible refractive index detection range.

Original language	English
Pages (from-to)	33-42
Number of pages	9
Journal	IEEE Sensors Journal
Volume	21
Issue number	1
Early online date	13 Nov 2019
DOIs	https://doi.org/10.1109/JSEN.2019.2953393
Publication status	Published - 1 Jan 2021

Keywords

sensor
photonic crystal fibre
refractive index sensor
sensitivity
surface plasmon resonance

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abstract = "In this paper, we mainly investigate the sensing performance of a fabricable 6-fold D-shaped photonic crystal fibre sensor based on the surface plasmon resonance (SPR). Its resonance couplings between fundamental core mode andthree surface plasmonic modes which have different electric filed distributions for analytes of various refractive indices have been studied in detail. We firstly observe two different types of SPRs, namely, {\textquoteleft}dielectric like{\textquoteright} resonance with low-loss peak and {\textquoteleft}plasmon like{\textquoteright} resonance with high-loss peak, by analysing theelectric field distribution of the fibre modes. Then, we discuss the influence of the secondary SPR over the main SPR which is directly related to the limitation on the detection sensing range of the proposed sensor. In order to mitigate the adverse effect of the sub-peak of the secondary SPR on the sensor{\textquoteright}s sensingperformance, we reduce the thickness of analyte{\textquoteright}s binding layer from 1500 nm to 500 nm. Thus, the sensing range of the proposed sensor can be tuned from 1.33-1.41 to 1.33-1.45 at the cost of a reduced maximum sensitivity from 7900 nm/RIU to 5300 nm/RIU. Owning to the simple structure design of the proposed sensor, we envisage that this highly sensitive Dshaped PCF-SPR sensor could be developed as a versatile and competitive instrument with a large and flexible refractive index detection range.",

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Influence of the Sub-peak of Secondary Surface Plasmon Resonance onto the Sensing Performance of a D-shaped Photonic Crystal Fibre Sensor

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