Mechanistic Modeling for Performance Engineering of SPR-Based Fiber-Optic Sensor Employing Ta 2 O 5 and Graphene Multila
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Mechanistic Modeling for Performance Engineering of SPR-Based Fiber-Optic Sensor Employing Ta2O5 and Graphene Multilayers in Phase Interrogation Scheme Ravi Kant 1
&
Rana Tabassum 2
Received: 21 June 2019 / Accepted: 1 November 2019 # Springer Science+Business Media, LLC, part of Springer Nature 2019
Abstract This work elucidates the numerical simulations carried out for the performance analysis of surface plasmon resonance (SPR)– based fiber-optic sensors using thin layers of tantalum (v) oxide (Ta2O5) and graphene in phase interrogation scheme. For this purpose, fiber-optic sensing probes with three distinct configurations have been used which include consecutive as well as individual layers of Ta2O5 and graphene over silver-coated unclad core of a silica optical fiber. The performance of sensing probes is studied in terms of the phase difference arising between TM and TE polarized components of the incident light as they propagate through the sensing region, besides their SPR responses towards varying refractive index of analyte layer, making use of the transfer matrix theory for stratified isotropic optical media in conjunction with geometrical optics. Theoretical investigations reveal that the probe having multi-layered arrangement of Ta2O5 and graphene possesses maximum sensitivity of propagating phase difference with magnitude 4.852 × 105 Deg/RIU at analyte refractive index of 1.33 in comparison to probes with individual Ta2O5 (3.731 × 105 Deg/RIU) and graphene (0.362 × 105 Deg/RIU) layers. Moreover, the design parameters of the probes have been numerically maneuvered with an aim of achieving an analyte refractive index of 1.33 in transmitted light spectrum to display the feasibility of proposed sensor in biochemical fields. The reported results unfold an innovative perspective to widen the application horizon of fiber-optic SPR sensors in phase interrogation scheme. Keywords Phase interrogation scheme . Fiber optics . Ta2O5 . Graphene . Phase sensitivity
Introduction Surface plasmon resonance (SPR) has established itself as an immensely distinguished, versatile, and efficient optical scaffold in the avenue of sensor technology. The same has been supported by its extensive usage for sensing applications encompassing numerous chemicals, gases, and biomaterials across the breadth of a multitude of scientific and industrial sectors. Optical sensors based on SPR sensing principle are loaded with myriad significant features and advantages, for instance, high sensitivity, specificity, selectivity, and rapid response in addition to providing a label free detection
* Ravi Kant [email protected]; [email protected] 1
Department of Physics, Indian Institute of Technology Delhi, New Delhi 110016, India
2
Centre for Nanoscience and Nanotechnology, Jamia Millia Islamia (A Central University), New Delhi 110025, India
methodology in real time scenario [1–5]. A surface plasmon (SP) wave is a transverse magnetic (TM) polarized wave represented in the form of coherent charge density oscillations
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