Sangram Kishore Mohanty, Subhankar Das, K P Swain, Urmila Bhanja, G Palai
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A proposal for testing kit of corona viruses using 3D photonic structure.
Design of corona virus testing kit is proposed in this paper using silicon based 3D photonic structure through zirconium quantum dot solution at the signal of 412 nm. The principle of measurement depends on the computation of reflectance, absorbance and transmittance of virus based quantum dot solution. In this paper, the reflectance is studied through the analysis of photonic band gap and absorbance is made through its numerical treatment. Further, the numerical investigation shows that the transmitted energy through photonic structure would determine the type of corona virus. For example; if the transmitted energy lies within the visible spectrum the sample would be normal corona virus. However, the sample could be IBV (SARS COV-2) if the transmitted energy would be Infrared.
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"Microsystem Technologies - Micro- and Nanosystems. Information Storage and Processing Systems" is intended to provide rapid publication of important and timely results on electromechanical, materials science, design, and manufacturing issues of these systems and their components.
The MEMS/NEMS (Micro/NanoElectroMechanical Systems) area includes sensor, actuators and other micro/nanosystems, and micromechatronic systems integration.
Information storage systems include magnetic recording, optical recording, and other recording devices, e.g., rigid disk, flexible disk, tape and card drives. Processing systems include copiers, printers, scanners and digital cameras.
All contributions are of international archival quality. These are refereed by MST editors and their reviewers by rigorous journal standards. The journal covers a wide range of interdisciplinary technical areas. It brings together and cross-links the knowledge, experience, and capabilities of academic and industrial specialists in many fields. Finally, it contributes to the economically and ecologically sound production of reliable, high-performance MEMS and information storage & processing systems.
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