- * 프린트는 Chrome에 최적화 되어있습니다. print
Our research group aims to generate and control quantum light based on various solid-state quantum systems such as quantum dots, defects, and emerging quantum materials. We study light-matter interaction, cavity QED, quantum entanglement from solid-state quantum emitter coupled to nano-photonic structures. Therefore, the research ranges from device fabrication to optical controls and characterization. Recently, our group is focusing on the realization of integrated quantum devices by developing new techniques that control multiple quantum emitters and their quantum interaction.
Major research field
Quantum photonics, quantum emitters, quantum light sources, quantum memory, quantum entanglement, cavity QED
Desired field of research
Fundamental understanding and engineering of light-matter interaction
Research Keywords and Topics
• 고체 기반 양자광원을 이용한 집적 양자 광소자 개발
Integrated solid-state quantum devices based on solid-state quantum emitters
• 공진기 기반의 빛과 물질 간 상호 작용 연구
Cavity-quantum electrodynamics
• 다수의 큐빗 간 양자 얽힘 현상 연구
Quantum entanglement between multiple qubits
Research Publications
MORE• J. H. Lee, W. B. Jeon, J. S. Moon, J. Lee, S.-W. Han, Z. Bodrog, A. Gali, S.-Y. Lee, and J.-H. Kim*, "Strong zero-phonon transition from point defect-stacking fault complexes in silicon carbide
nanowires", Nano Letters 21, 9187 (2021)
• J.‐H. Kim*, S. Aghaeimebodi, J. Carolan, D. Englund, and E. Waks, "Hybrid integration methods for on-chip quantum photonics", Optica 7, 291 (2020)
• H. Kim, J. S. Moon, G. Noh, J. Lee, and J.-H. Kim*, "Position and frequency control of strain-induced quantum emitters in WSe2 monolayers", Nano Letters 19, 7534 (2019)
Patents
• "양자광원 및 그 제조방법," 김제형, 김효주, 문종성, 등록 번호 10-2045064
국가과학기술표준분류
- NB. 물리학
- NB05. 광학
- NB0502. 양자광학
국가기술지도분류
- 정보-지식-지능화 사회 구현
- 010400. 반도체/나노 신소자 기술
6T분류
- NT 분야
- 나노소자 및 시스템
- 030114. 나노 photonics기술