* Equal contribution, † Co-correspondance
Quantum decoherence of nitrogen-vacancy spin ensembles in a nitrogen spin bath in diamond under dynamical decoupling
H. Park, M. Onizhuk, E. Lee, H. Lim, J. Lee†, S. Oh†, G. Galli, H. Seo†, arXiv:2503.05404 (2025)
Coherent control of solid-state defect spins via patterned boron-doped diamond circuit
M. Ohkuma, E. Kimura, R. Matsumoto, S. Ohyama, S. Tsuchiya, H. Lim, Y. S. Lee, J. Lee, Y. Takano, K. Arai, arXiv:2412.15586 (2024)
* Equal contribution, † Co-correspondance
Coarse-grained quantum state tomography with optimal POVM construction
D. Jung, Y-W. Cho, Y. Kim†, and J. Lee†, Phys. Rev. Res. 7, 023224 (2025)
* Equal contribution
Dressed-state control of effective dipolar interaction between strongly coupled solid-state spins
J. Lee, T. Mamiko, A. Xu, E. Bauch, M. J. H. Ku, and R.L Walsworth, npj Quantum Inf. 9, 77 (2023)
Controllable tunability of a Chern number within the electronic-nuclear spin system in diamond
J. Lee*, K. Arai*, H. Zhang, M. J. H. Ku, and R. L. Walsworth, npj Quantum Inf. 9, 66 (2023)
Nature porfolio community blog post : behind the paper
Phys.org news : Tuning the Chern number in the nitrogen-vacancy center in diamond
* Equal contribution
Decoherence of nitrogen-vacancy spin ensembles in a nitrogen electron-nuclear spin bath in diamond
H. Park*, J. Lee*, S. Han, S. Oh and H. Seo, npj Quantum Inf. 8, 95 (2022)
Sub-10 nm precision engineering of solid-state defects via nanoscale aperture array mask
T. Hwang*, J. Lee*, S-W. Jeon, Y-S. Kim, Y-W. Cho, H-T. Lim, S. Moon, S-W. Han, Y-H. Choa, and H. Jung, Nano Lett. 8, 1672-1679 (2022)
* Equal contribution
Strong Zero-Phonon Transition from Point Defect-Stacking Fault Complexes in Silicon Carbide Nanowires
J-H. Lee, W. Jeon, J. Moon, J. Lee, S-W. Han, Z. Bodrog, A. Gali, S-Y. Lee, J-H. Kim, Nano Lett. 21, 9187–9194 (2021)
High-Resolution, High-Contrast Optical Interface for Defect Qubits
J. Moon, H. Lee, J-H. Lee, W. Jeon, D. Lee, J. Lee, S. Paik, S-W. Han, R. Reuter, A. Denisenko, J. Wrachtrup, S-Y. Lee, J-H. Kim, ACS Photonics 9, 2642–2649 (2021)
Bright nitrogen-vacancy centers in diamond inverted nanocones
S-W. Jeon*, J. Lee*, H. Jung, S-W. Han, Y-W. Cho, Y-S. Kim, H-T. Lim, Y. Kim, M. Niethammer, W. C. Lim, J. Song, S. Onoda, T. Ohshima, R. Reuter, A. Denisenko, J. Wrachtrup, and S-Y. Lee, ACS Photonics 10, 2739-2747 (2020)
Decoherence of ensembles of nitrogen-vacancy centers in diamond
E. Bauch, S. Singh, J. Lee, C. Hart, J. Schloss, M. Turner, J. F. Barry, L. Pham, N. Bar-Gill, S. F. Yelin, and R.L Walsworth, Phys. Rev. B 102, 134210 (2020)
Geometric phase magnetometry using a solid-state spin in diamond
K. Arai*, J. Lee*, C. Belthangady, D. R. Glenn, H. Zhang, R. L. Walsworth, Nature Communications 9, 4996 (2018)
High resolution magnetic resonance spectroscopy using solid-state spin sensor
D. R. Glenn*, D. B. Bucher*, J. Lee, M. D. Lukin, H. Park, R. L. Walsworth, Nature 555, 351-354 (2018)
NMR technique for determining the depth of shallow nitrogen-vacancy centers in diamond
L. M. Pham, S. J. DeVience, F. Casola, I. Lovchinsky, A. O. Sushkov, E. Bersin, J. Lee, E. Urbach, P. Cappellaro, H. Park, A. Yacoby, M. Lukin, and R. L. Walsworth, Phys. Rev. B 93, 045425 (2016)
제20회 한국양자정보학회 정기워크샵 발표, 양자정보과학기술연구회 Youtube, 08/23/23
연구원의 매력을 보여줄게! 연구원들의 솔직 토크, 이공계 어때?, 과기정통부 Youtube, 06/13/23
돌고 돌아 '양자기술' 만난 과학청년···"연구는 내 운명", 헬로디디, 03/29/23
상온 동작 양자컴퓨터 개발에 한발 더, ZDNet, 03/29/22