Novel Technique for Generation of X-ray Based on Molecular Quantum Harmonic Oscillator and Subsequent Application in Determination of Carcinoma of Lungs and Breast Cells Using Gold Nanowire Network
Sachindeb Jana1*, Kisalaya Chakrabarti1 and Angsuman Sarkar2
1Haldia Institute of Technology, West Bengal, India
2Kalyani Government Engineering College, West Bengal, India
*Corresponding Author: Sachindeb Jana, Haldia Institute of Technology, West Bengal, India.
Published: September 11, 2024
Abstract
The X-ray is a fantastic invention that has found widespread use in the medical area and as a metal detector, among other things. However, because the conventional X-ray generating technique requires a high voltage of several kilovolts, it is expensive. Here, we've presented a reliable technique that makes use of quantum technology to produce X-rays with just a few volts. In addition, we have implemented an X-ray method for the identification of lung and breast cancer. The next step is precisely positioning gold nanowires for tailored drug delivery. The interaction of light with metal nanoparticles has been studied for a very long time, both theoretically and experimentally. Silver and gold nanoparticles, which usually have sizes between 5 and 150 nm, are very interesting because they have the ability to modify their binding affinity. This means that the formulation of the nanoparticles may be perfectly matched to a particular type of cancer by excitation with the resonance of the generated X-ray spectrum range. On the other hand, when these particles are arranged as grating elements in a gold nanowire network structure (AuNW), several interesting occurrences take place.
Keywords: Molecular FCN; QHO; X-ray; AuNW; Targeted drug delivery
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