Overview of Quantum Technology Research
Professors and Laboratories
Department of Physics / professor Jaeung Yoon
Resonant nanostructures and non-Hermitian optical interactions and quantum simulator studies. Study of light-bound state resonance and waveguides with dramatic non-Hermitian photon effects.
윤재웅 교수님 < Microstructure optics Laboratory >
Homepage ≫ https://photon.hanyang.ac.kr/home
Overall research theme :
Department of Physics / professor Jinhyoung Lee
Research on fundamental characteristics of quantum resources, the methodology for quantum information machines, and the quantum metrology with nonclassical contextuality.
이진형 교수님 < Quantum Information Group at Hanyang University>
Homepage ≫ http://alice.hanyang.ac.kr
Overall research theme :
We work on quantum information, particularly unravelling novel quantum resources in perspective of nonclassical contextuality and applying them to develop methodologies for quantum information processing such as quantum simulation and quantum metrology. Our interests include fundamental characteristics of quantum resources, methodologies for quantum information machines with quasi probabilities, and quantum metrology with nonclassical contextuality.
Department of Physics / professor Gwanggeol Lee
Quantum light measurement, quantum light sensing, quantum light sensing using compression and entanglement, and quantum machine learning research.
이광걸 교수님 < NanoPhotonics & Quantum Optics Laboratory >
Homepage ≫ https://npqo.modoo.at
Overall research theme :
Department of Applied Physics / professor Younghun Kwon
Our research focuses on the following topics in quantum information and quantum computing, such as quantum state discrimination problems, the development of a simulator of a superconducting quantum computer, quantum error correcting code in a real quantum computer, and the new development of quantum artificial intelligence.
권영헌 교수님 < mathematical Physics and Artificial Intelligence Laboratory >
Homepage ≫ http://frontier.hanyang.ac.kr
Overall research theme :
Our research focuses on the following topics in quantum information and quantum computing, such as quantum state discrimination problems, the development of a simulator of a superconducting quantum computer, quantum error correcting code in a real quantum computer, and the new development of quantum artificial intelligence.