Spintronics And Magnetization Dynamics

Our aim: Designing faster, denser, and energy-efficient spintronic devices for magnetic data recording, storage, and processing applications

Previous research interest: Ultrafast magnetization dynamics in magnetic thin films, heterostructures, and nanostructures; Generation and manipulation of spin waves in magnonic crystals and quasi-crystals; Optical generation of pure spin-current in strongly spin-orbit coupled systems; Electrical- and optical switching in advanced spintronic devices; Straintronic systems; Two-dimensional materials and hybrid systems, Micromagnetic simulations.

Future research interests: Spin-torque driven switching; Interfacial effects in magnetic metals, semimetals, and insulators; Topological materials; Quantum entanglement between magnon, phonon, and photon; Data storage, recording, and processing applications.

Currently, our research activities at the department are under preparation!

Associated Faculty

Sucheta Mondal

Assistant Professor

School of Natural Sciences

Sucheta Mondal

Assistant Professor

School of Natural Sciences

Sucheta Mondal

Assistant Professor

School of Natural Sciences

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