Quantum Photonics: Exploring the fundamental principles and applications of quantum phenomena in photonics, with a focus on developing technologies for quantum information processing and communication.
Spin-based Quantum Information Processing: Investigating the manipulation and control of spin states in various quantum systems to develop efficient quantum computing and quantum communication protocols.
Quantum Transport in nano-optoelectronic Devices: Studying the quantum mechanical behavior of electrons and photons in nanoscale optoelectronic devices, aiming to understand and enhance their transport properties for future quantum technologies.
Light Emitting Devices, Photodetectors, and Solid State Lighting: Researching and developing innovative materials, structures, and devices for efficient light emission, sensitive photodetection, and energy-efficient solid-state lighting technologies.
Plasmonics: Investigating the interaction of light with surface plasmons in metallic nanostructures, aiming to harness and control plasmonic effects for enhanced light-matter interactions, sensing, and imaging applications.
My ultimate goal is to leverage my expertise in these research areas to tackle real-world challenges effectively, including promoting energy savings, advancing sensing technologies, and improving medical diagnostics.