High-Performance Two-Dimensional Photonic Crystal Biosensor to Diagnose Malaria Infected RBCs
| Authors | H. Tayoub1,2 , A. Hocini1 , A. Harhouz1 |
| Affiliations |
1Laboratoire d’Analyse des Signaux et Systèmes, Department of Electronics, University of M’Sila BP.166, Route Ichebilia, 28000 M’Sila, Algeria 2Research Center in Industrial Technologies CRTI, P.O.BOX :64, Cheraga, 16014 Algiers, Algeria |
| Е-mail | hadjira.tayoub@univ-msila.dz |
| Issue | Volume 15, Year 2023, Number 1 |
| Dates | Received 05 January 2023; revised manuscript received 16 February 2023; published online 24 February 2023 |
| Citation | H. Tayoub, A. Hocini, et al., J. Nano- Electron. Phys. 15 No 1, 01008 (2023) |
| DOI | https://doi.org/10.21272/jnep.15(1).01008 |
| PACS Number(s) | 07.07.Df, 42.79.Pw |
| Keywords | Photonic crystal, Ring-shaped cavity, Biosensor (5) , Malaria, Sensitivity (11) , Quality factor. |
| Annotation |
In this paper, a two-dimensional photonic crystal refractive index biosensor based on a ring-shaped cavity has been proposed. It is designed for the diagnosis of malaria-infected red blood cells (RBCs) in the wavelength range of 1130-1860 nm for TM-polarized light. The proposed biosensor consists of two waveguides coupled with one ring-shaped microcavity, which is obtained by removing seven lattice holes, the microcavity is separated from the two waveguides by three holes. The infiltration of the analyte into the ring-shaped cavity changes its refractive index, and this variation of the refractive index of infected and normal uninfected RBCs causes a corresponding wavelength shift at the output terminal. Consequently, a high sensitivity of more than 700 nm/RIU, an ultra-high-quality factor (Q-factor) of up to 106 giving a sensor figure of merit (FOM) of up to 106 RIU – 1, and a low detection limit of 10 – 7 RIU can be achieved for the proposed design. The proposed device has also an ultra-compact size of 9.78 8.84 m2 that makes it so attractive for lab-on-a-chip applications. The obtained results have demonstrated that the ring-shaped holes configuration provides an excellent optical confinement within the cavity region. The proposed design is simulated using Plane Wave Expansion (PWE) method and Finite-Difference Time-Domain (FDTD) algorithm. |
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List of References |
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