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I am Sreyash Sarkar, currently serving as an ANR Postdoctoral Fellow affiliated with the esteemed Le Centre d'Energétique et de Thermique de Lyon (CETHIL) at the Institut National des Sciences Appliquées, Lyon (INSA de Lyon). As an aspiring applied physicist, I bring a wealth of skills and diverse international research experiences to the forefront of my academic pursuits. My current research interests converge at the intersection of applied nanophotonics, infrared optics, plasmonics, light-matter interaction, advanced nanostructures, and computational electromagnetics.
At present, my scholarly endeavors are dedicated to the theoretical and computational analysis of near-field thermal radiation surrounding plasmonic nano-bubbles induced by metal nanoparticles. This exploration holds significant promise for applications in hyperthermia, thermal engineering, and bio-engineering contexts, underscoring the interdisciplinary nature of my investigations.
My doctoral research delved into the intricate realms of fabricating, computationally modeling, and experimentally characterizing the infrared radiative optical properties intrinsic to highly absorbing silicon metasurfaces, with a specific focus on thermal energy harvesting applications.
My past engagements also encompass the design, development, fabrication, and characterization of sustainable micro-electromechanical sensors capable of multi-parameter sensing, alongside micromachined flow-rate sensors tailored for water network monitoring. Additionally, I have been involved in projects centered on optical sensing in high voltage transmission lines and the implementation of STATCOMs for voltage flicker mitigation.
These diverse undertakings epitomize my commitment to pushing the boundaries of scientific inquiry while addressing pressing real-world challenges. You can find more about research here.
At present, my scholarly endeavors are dedicated to the theoretical and computational analysis of near-field thermal radiation surrounding plasmonic nano-bubbles induced by metal nanoparticles. This exploration holds significant promise for applications in hyperthermia, thermal engineering, and bio-engineering contexts, underscoring the interdisciplinary nature of my investigations.
My doctoral research delved into the intricate realms of fabricating, computationally modeling, and experimentally characterizing the infrared radiative optical properties intrinsic to highly absorbing silicon metasurfaces, with a specific focus on thermal energy harvesting applications.
My past engagements also encompass the design, development, fabrication, and characterization of sustainable micro-electromechanical sensors capable of multi-parameter sensing, alongside micromachined flow-rate sensors tailored for water network monitoring. Additionally, I have been involved in projects centered on optical sensing in high voltage transmission lines and the implementation of STATCOMs for voltage flicker mitigation.
These diverse undertakings epitomize my commitment to pushing the boundaries of scientific inquiry while addressing pressing real-world challenges. You can find more about research here.
Present Appointment
ANR Postdoctoral Scholar, 'Near-field Thermal Radiation in Plasmonic Nanobubbles', MINT Group, CETHIL, INSA de Lyon / Mar 2023- Oct 2024