Diya Pandey

Diya Pandey

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Publications

An Approach For Detection Of Atrial Fibrillation Using Quantum Sensor In Magnetic Induction Tomography (MIT)

Published in , 2022

Atrial fibrillation (AF) is the most common sustained cardiac rhythm disorder characterized by rapid and irregular beating of the atrial chambers of the heart.The prevalence of AF is expected to double in next decades creating the threat for global medical challenge. Causing more deaths in developed countries rather than developing countries, the timely detection of AF is still not achieved due to the lack of precise diagnostic and guiding tools, questioning the scientific and technological society of the 21st century.Therefore, we identify a promising novel solution of Quantum Sensor in MIT as precise diagnostic tool for the detection of Atrial Fibrillation. A quantum sensor is applied in the system as an excitation detection agent which is designed mainly for biomedical applications.The feasibility of this method makes it a promising tool also for application for other areas such as neurology and oncology.

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Low cost hot air balloon

Published in , 2021

We developed a lesson-plan and bill of materials which teach students how to build a low-cost high-altitude balloon capable of reaching near-space. This project develops new method of preparing and solving the challenges of near space, performing the near space experiments using the cost effective payload tied with hot air balloon which requires high skills like problem solving, proper planning, deep analysis, tracking and recovery Hot air Balloon payloads provide information on the atmosphere, the universe, the Sun, and the near-Earth and space environment.

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Pathways to High Temperature Superconductors

Published in , 2021

High-temperature superconductivity, characterized by zero resistivity, is one of the prominent research areas discovered accidentally in 1911 by the Dutch physicist H. Kamerlingh Onnes (1853–1926) when he used liquid helium to cool mercury at 4.2 K. Ever since, several breakthroughs have been made to make it possible at room temperature: Yttrium-Barium-Copper-Oxide at 77 K, H2S above 200K, with the latest from hydrogen sulfide, hydrogen, and methane at 15 C or 288K. However, the biggest questions surrounding high-temperature superconductivity involve the pathway to getting to low pressures as well. So our primary focus is to find the room temperature superconductor with the low pressure resulting in extensive practical applications.Once a novelty, superconductivity leapt into the scientific mainstream.Perhaps, if nature is kind, it will leap into the consumer mainstream with 21st century advancements.

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