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Kundan holds a Bachelor's degree in Avionics with a specialization in RF technology from the Indian Institute of Space Science and Technology (IIST), Thiruvananthapuram. After graduating, he spent two years at the Indian Space Research Organisation (ISRO) as a Scientist, where he contributed to key missions involving communication and navigation satellites. During his tenure at ISRO, he also engaged in pioneering efforts toward the development of quantum communication satellite technologies. Currently, he is a doctoral researcher in Prof. Rajib Rahman’s group, where his work focuses on mitigating decoherence in semiconductor quantum computing systems—an essential step toward realising scalable quantum technologies. Beyond his technical pursuits, Kundan is deeply interested in fundamental questions in physics and enjoys playing the sitar, an Indian classical music instrument.

±Ê°ù´ÇÂá±ð³¦³Ù:ÌýEngineering Spin-Photon Coupling In Semiconductor Spin Qubits Platform.

Supervised by:Ìý

Project description:ÌýKundan is addressing the challenges in spin qubits to enhance spin-photon coupling mechanisms within semiconductor spin qubit architectures, aiming to enable scalable quantum information processing. Semiconductor spin qubits, known for their compatibility with existing CMOS technology and long coherence times, face significant hurdles when interfacing with photonic modes—an essential requirement for quantum communication and distributed quantum computing. His research focuses on developing and optimizing spin-photon interfaces through electric dipole spin resonance (EDSR) and cavity quantum electrodynamics (cQED). By tackling key limitations such as decoherence, coupling efficiency, and device scalability, Kundan’s work aspires to advance hybrid quantum systems in which solid-state qubits are seamlessly networked via photonic channels.