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ABOUT SAINT

Professors

  • Assistant Professor
  • KIM, JUNKI
    Lab Quantum Engineering with Trapped Ions

Research Interest

- Quantum computing, Quantum simulation based on trapped ions 
- Quantum optics 

Education

  • 2009 – 2017 Ph.D. in Physics, Seoul National University (Supervisor: Kyungwon An)
  • 2005 – 2009 B.S. in Physics, Seoul National University

Experience

  • 2018 – 2021 Research Scientist (2020-2021), Postdoc Associate (2018-2020), Electrical and Computer Engineering, Duke University
  • 2017 – 2018 Postdoctoral Researcher, Automation and Systems Research Institute, Seoul National University

Journal Articles

  • (2024)  Direct measurement of isotope shifts in the barium 6s2 1S0-5d6p 3Do1 transition.  PHYSICAL REVIEW A.  110,  3
  • (2024)  Design and characterization of individual addressing optics based on multi-channel acousto-optic modulator for 171Yb+ qubits.  OPTICS AND LASER TECHNOLOGY.  180,  -
  • (2024)  Probing Inherent Optical Anisotropy in Substrates via Direct Nanoimaging of Mie Scattering.  ACS NANO.  18,  19
  • (2024)  An elementary review on basic principles and developments of qubits for quantum computing.  NANO CONVERGENCE.  11,  1
  • (2022)  Stable Turnkey Laser System for a Yb/Ba Trapped-Ion Quantum Computer.  IEEE transactions on quantum engineering.  3,  5500308
  • (2022)  A photonic quantum engine driven by superradiance.  NATURE PHOTONICS.  16,  10
  • (2022)  High-Stability Cryogenic System for Quantum Computing with Compact Packaged Ion Traps.  IEEE Transactions on Quantum Engineering.  3,  1
  • (2021)  Realization of superabsorption by time reversal of superradiance.  NATURE PHOTONICS.  15,  4