Team Leader
Soo-hyon Phark
Soo-hyon is currently working at Center for Quantum Nanoscience (QNS) of Institute for Basic Science in Republic of Korea. He got his PhD in Solid State Physics from Seoul National University (SNU) in 2006. He had worked as postdocs at SNU and Max-Planck-Institute of Microstructure Physics. His major has been studies on surface nanostructures using a UHV low temperature STM, in particular, spin-polarized STM of spin-resolved electronic structures in magnetic nanostructures. He joined QNS from Oct 2016 and is leading the team “Atomic Scale Qubit Platforms on Surface” using a low-temperature STM equipped with electron spin resonance.
- 2006
- PhD in Physics, Seoul National University, Korea
- 1998
- BS in Physics, Chonnam National University, Korea
- 2016 - Current
- Research Professor at Center for Quantum Nanoscience(QNS), Institute for Basic Science(IBS), Ewha Womans University, Seoul, Korea
- 2015 - 2016
- Research Fellow, Korea Researcher Institute of Standards and Science
- 2014 - 2015
- Research Fellow, Center for Correlated Electron Systems (CCES) of IBS
- 2010 - 2014
- Postdoc, Max-Planck- Institute of Microstructure Physics, Germany
- 2009 - 2010
- Research Professor, Ewha Womans University
- 2006 - 2009
- Postdoc, Seoul National University
- 2024
- Bui et al. "All-electrical driving and probing dressed states in a single spin", ACS Nano 18, 12187 (2024).
- 2023
- Wang et al. "An atomic scale multi-qubit platform", Science 382, 87-92 (2023).
- 2023
- Phark et al. "Double-Resonance Spectroscopy of Coupled Electron Spins on a Surface", ACS Nano 17, 14144 (2023).
- 2023
- Phark et al. "Electric-field-driven Spin Resonance by Coupling to a Single-atom Magnet", Advanced Science 10, 2302033 (2023).
- 2023
- Wang et al. "Universal quantum control of an atomic spin qubit on a surface", npj Quantum Info. 9, 48 (2023).
- 2019
- Coherent spin manipulation of individual atoms on a surface, Kai Yang et al., Science, 366, 6464, 509-512
- 2016
- Probing the spinor nature of electronic states in nanosize non-collinear magnets, Jeison A. Fischer et al., Nature Communications 7, 13000 (2016)
- 2016
- Direct Nanoscale Analysis of Temperature-Resolved Growth Behaviors of Ultrathin Perovskites on SrTiO3, Young Jun Chang and Soo-hyon Phark, ACS Nano 10, 5, 5383-5390
- 2014
- Soo-hyon Phark, J. A. Fischer, M. Corbetta, D. Sander*, J. Kirschner, “Reduced dimensionality induced helimagnetism in Iron nanoislands”, Soo-hyon Phark et al., Nature Communications 5, 5183
- 2014
- Direct observation of electron confinement in epitaxial graphene nanoislands, Soo-hyon Phark et al., ACS Nano 2011, 5, 10, 8162-8166
Hong T. Bui, Christoph Wolf, Yu Wang, Masahiro Haze, Arzhang Ardavan, Andreas J. Heinrich, Soo-hyon Phark
Yu Wang, Yi Chen, Hong T. Bui, Yujeong Bae, Soo-Hyon Phark, and Andreas J. Heinrich, Christoph Wolf, Masahiro Haze, Cristina Mier, Jinkyung Kim, Deung-Jang Choi, Christopher P. Lutz (2023)
Soo-hyon Phark, Hong Thi Bui, Alejandro Ferrón, Joaquin Fernández-Rossier, Jose Reina-Gálvez, Christoph Wolf, Yu Wang, Kai Yang, Andreas J. Heinrich, and Christopher P. Lutz (2023)
Soo-hyon Phark, Yi Chen, Hong T. Bui, Yu Wang, Masahiro Haze, Jinkyung Kim, Yujeong Bae*, Andreas J. Heinrich*, and Christoph Wolf* (2023)
Yu Wang, Masahiro Haze, Hong T. Bui, We-hyo Soe, Herve Aubin, Arzhang Ardavan, Andreas J. Heinrich & Soo-hyon Phark (2023)
Kai Yang, Soo-Hyon Phark, Yujeong Bae, Taner Esat, Philip Willke, Arzhang Ardavan, Andreas J. Heinrich & Christopher P. Lutz, Nature Communication (2021)
Kai Yang, William Paul, Soo-Hyon Phark, Philip Willke, Yujeong Bae, Taeyoung Choi, Taner Esat, Arzhang Ardavan, Andreas J. Heinrich, Christopher P. Lutz, Science (2019)
Jeison A. Fischer, Leonid M. Sandratskii, Soo-hyon Phark, Dirk Sander, and Stuart Parkin, Physical Review B 2017
Soohyon Phark, Dirk Sander, Nano Convergence 2017
- 2024
- Minister's Commendation Award to outstanding scientists, Ministry of Science and ICT
- 2024 "Creating a New Quantum Computer Platform by Controlling Spin of Single Atoms", IBS People
- 2024
- "Exotic Quantum Matter", Donga Science