Brain tumors biomedical sensor with high-quality factor and ultra-compact size based on nanocavity 2D photonic crystal

• Published in: Alexandria engineering journal Vol. 64; pp. 527 - 540
• Main Authors: Mohammed, Nazmi A., Khedr, Omar E., El-Rabaie, El-Sayed M., Khalaf, Ashraf A.M.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2023; Elsevier
• Subjects: Brain tumors; Compactness; Photonic crystal; Quality factor; Sensitivity; Single circle holes defects; Single circle holes defects; Sensitivity; Photonic crystal; Quality factor; Brain tumors; Compactness
• ISSN: 1110-0168
• DOI: 10.1016/j.aej.2022.09.020

Types of brain lesions, tumors, and cancers are still considered deadly. They require accurate and expensive detecting, diagnosing, and treatment methods. This work presents a biomedical photonic-based sensor that can detect and distinguish accurately between normal and abnormal brain tissues. The abnormal ones consist of lesions, tumors, and cancerous tissues. The designed sensor detects these types with acceptable sensitivity and high-quality factor compared to other photonic-based detecting techniques. The proposed sensor achieves a sensitivity of 1332 nm/RIU, a very low detection limit of 9.08 × 10-6, and an ultra-high quality factor of 16254. Ultra-compactness and the ability to fabricate with today's technology are novel features in the proposed design. An abbreviated review of non-optical detection techniques is presented. An in-depth comparison between this work and related photonic-based recent literature is drawn to validate the efficacy and authenticity of the proposed design.