Research Activities
Our group members perform targeted experiments based on detailed theoretical treatment of scientific problems. We develop custom analytical models, write numerical codes, use first principles calculations to investigate novel properties in materials. Our group has extensive experimental facilities to grow materials, fabricate devices and characterize for verification of our developed theories. We work on topics relating to, but not restricted to, what is presented below
Superconductivity
Superconductivity has been a fertile field for scientific discoveries in the past century. In recent times applications based out of these novel materials are seeing the light of the day. Most modern day quantum technologies employ superconductivity. Our group focuses on single photon detection, microwave mixing, entangled photon emission and such interesting applications using superconductivity.
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Electron Transport
Every day a newer electronic material is being explored. With material quality improving significantly over the years, newer transport models are required to understand the electron flow through these materials.
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Light Matter Interaction
We investigate photon detection, emission, non-linear interactions, exciton formation, quasi-particle interactions and such in layered materails and nanostructures.
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Development
We also work on technology development. Currently we are involved in development of hardware modules for networked particle sensor for sustainable cities.
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