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A 2D photonic crystal based biosensor using rhombic ring resonator is proposed and designed for monitoring the concentrations of glucose. The optical characteristics of rhombic ring resonator is analyzed and predicted by Finite Difference Time Domain method. A new structure of rhombic ring resonator is formed by utilizing bi-periodicity in the design of 2D silicon PC slab in hexagonal lattice with the size of 10 μm and 12μm in X and Z direction, respectively. The sensing parameters are observed in the rhombic ring resonator which are completely depends on the refractive indices of the material used. Thereby the concentrations of glucose can be monitored. The determined sensing parameters such as resonant wavelength is about 1546 nm, quality factor is of 178.5, higher sensitivity of 1000nm/RIU and 100% of transmission efficiency is also achieved.

Keywords

Photonic Crystal, Biosensor, Rhombic Ring Resonator, Sensitivity.

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References

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Design of 2D Photonic Crystal Based Force Sensor Using Paralleloid Ring Resonator

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Authors

T. Suganya ¹, S. Robinson ¹

Affiliations
1 Department of Electronics and Communication Engineering, Mount Zion College of Engineering and Technology, IN

Source

ICTACT Journal on Microelectronics, Vol 3, No 3 (2017), Pagination: 425-430

Abstract

A 2D photonic crystal based force sensor using paralleloid ring resonator is proposed and designed for sensing the force. An elasto-optic effect method is utilized to analyze the force which persist over photonic crystal. The optical characteristics of paralleloid ring resonator is analyzed and predicted by Finite Difference Time Domain method. A new structure of paralleloid ring resonator is formed by introducing the line defects as waveguide in the design of 2D silicon PC slab in hexagonal lattice with the size of 10μm and 12μm in X and Z direction, respectively. The sensing parameters are observed in the ring resonator which are completely depends on the refractive indices of the material used. Thereby the force can be sensed. The determined sensing parameters such as resonant wavelength is about 1470nm, quality factor is of 145.5 and 100% of transmission efficiency is also achieved.

Keywords

Photonic Crystal, Force Sensor, Paralleloid Ring Resonator, Sensitivity.

Full Text

References

John D. Joannopoulos, Steven G. Johnson, Joshua N. Winn, and Robert D. Meade, “Photonic Crystals Molding the Flow of Light”, 2^nd Edition, Princeton University of Press, 2008.

T.T. Mai, F.L. Hsiao, C. Lee, W. Xiang, C. Chenc and W.K. Choi, “Optimization and Comparison of Photonic Crystal Resonators for Silicon Microcantilever Sensor”, Sensors and Actuators, Vol. 165, No. 1, pp. 16-25, 2011.

C. Kang, C. Phare, and S.M. Weiss, “Photonic Crystal Defects with Increased Surface Area for Improved Refractive Index Sensing”, Proceedings of International Conference on Laser and Electro Optics and Quantum Electronics and laser Science, Vol. 16, pp. 1-2, 2010.

S. Mandal, J. Goddard and D. Erickson, “Nanoscale optofluidic Sensor Arrays for Dengue Virus Detection”, Proceedings of International Conference on Laser, Electro-Optics and Laser Science, Vol. 18, pp. 1-2, 2008.

O. Saeed and D.A. Asghar, “High Resolution and Wide Dynamic Range Pressure Sensor based on Two-Dimensional Photonic Crystal”, Photonic Sensors, Vol. 2, No. 1, pp. 92-96, 2012.

F. Abdel Malek, “Design of a Novel Left-Handed Photonic Crystal Sensor Operating in Aqueous Environment”, IEEE Photonics Technology, Vol. 23, No. 3, pp. 188-190, 2011.

C. Lee, A. Sueh, P. Yee, J. L. Perera, C. Chen and N Balasubramanian, “Design of Nanobiophotonics Resonators for Biomolecules Detection”, Proceedings of IEEE International Conference on Nano/Micro Engineered and Molecular Systems, pp. 274-279, 2008.

H. Alipour-Banaei and F. Mehdizadeh, “A Proposal for Anti-UVB Filter based on One Dimensional Photonic Crystal Structure”, Digest Journal of Nanomaterials and Biostructures, Vol. 20, No. 7, pp. 361-367, 2012.

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T. Sreenivasulu et al., “Photonic Crystal based Force Sensor to measure Sub-Micro Newton Forces over a Wide Range”, Current Science, Vol. 110, No. 10, pp. 1-10, 2016.

V. Dinesh Kumar, “Analysis and Simulations of Photonic Crystal Components for Optical Communication”, PhD Dissertation, Department of Electrical Communication Engineering, Indian Institute of Science, 2003.

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