Exploring Spin, Topology and Quantum Materials for Next-Generation Information Technologies
Explore ResearchThe Quantum Spintronics Laboratory (Q-SPIN LAB) performs interdisciplinary research in Spintronics, Quantum Materials, Altermagnetism, Magnetic Tunnel Junctions, Magnetic Skyrmions and Artificial Intelligence assisted Materials Discovery.
Our vision is to develop next-generation energy-efficient information technologies by combining experimental condensed matter physics with advanced computational approaches.
Development of high-performance tunnel junctions for MRAM, spin logic and sensing applications.
Experimental realization of altermagnetic tunnel junctions.
Spin pumping, Inverse spin Hall effect and spin-to-charge conversion in topological systems.
Spin pumping, Inverse spin Hall effect and spin-to-charge conversion in collinear and non-collinear antiferromagnetics.
Topological spin textures for neuromorphic computing and low-power memory technologies.
Assistant Professor
Department of Physics
School of Basic and Applied Sciences
Harcourt Butler Technical University (HBTU), Kanpur, India
Research interests include Spintronics, Quantum Materials, Altermagnetism, Magnetic Tunnel Junctions, Magnetization Dynamics, Spin Pumping and Artificial Intelligence for Materials Discovery.
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Conference Papers
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