[SENIMAR] IBS 2DQH Seminar
- SAINT
- Hit340
- 2024-08-12
IBS 2DQH Seminar
August 20 2024, 4:00 PM
Sungkyunkwan University, Suwon,N Center 86120
A versatile quantum playground with semiconductor quantum emitters
Je-Hyung Kim
Ulsan National Institute of Science and Technology
Abstract
Solid-state quantum emitters such as quantum dots and color centers in crystals mimic atoms in nature as they spatially confine electrons in a nanoscale area and consequently have discrete energy levels. Therefore, solid-state quantum emitters can provide important quantum resources of photonic and spin qubits, which are basic building blocks for a range of quantum applications without complicated trapping setup. However, a solid-state environment also has several limitations, such as inevitable interaction with phonons and charges, low light extraction efficiency, and spectral randomness. With recent advances in the growth of quantum materials, integration of nanophotonic structures, coherent control techniques, and highly efficient single-photon detectors, these emitters have successfully demonstrated high-performance quantum light sources and quantum memories as well as a number of quantum applications such as quantum sensing and simulations. In particular, integrating quantum emitters into photonic cavities or waveguides has enabled scalable quantum interactions involving multiple photons and emitters. Given these high performance and scalability, quantum emitters are taking the next stages towards scalable, integrated quantum systems on photonic integrated circuits or fiber optics. Therefore, all quantum operations are efficiently possible in real-world photonic platforms. In this talk, I present recent races and future challenges in scalable, integrated quantum photonics.
Brief Biography
Associate Professor in Department of Physics, UNIST (2021 – )
Assistant Professor in Department of Physics, UNIST (2017 – 2021 )
Postdoc researcher, Department of Electrical and Computer Engineering, University of Maryland, MD (2014-2017)
Postdoc researcher, Department of Physics, KAIST, Korea (2014.3-2014.8)
Ph.D. in Physics (2014), KAIST, Daejeon, Korea “Group III-nitride based self-assembled quantum dots and single quantum dots in nanostructures for quantum photonics” Advisor: Prof. Yong-Hoon Cho”