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Group 2 (Hardware)
Group 2 (Hardware)
Research Areas
Semiconductors
- Implementation of long-distance entangled states mediated by microwaves for semiconductor spin and charge qubits
- Development of an 8-qubit programmable quantum computing system and quantum algorithms based on semiconductors
Superconducting
- Research on establishing design and analysis techniques for superconducting quantum computing chip hardware
- Research on establishing design and analysis techniques for superconducting quantum computing systems
- Study of resource-efficient quantum error correction using highly connected superconducting devices
Ion Trap
- Research on ion trap component technologies for developing large-scale quantum computing systems
- Development of ion trap chips integrated with optical components for individual ion addressing
- Development of optimization techniques for quantum error correction codes based on ion traps
Group Achievements
Taehyun Kim
Trapped Ion Quantum Computing
- Development of Ion Trap Chip and Device Based on MEMS Technology
- Implementation of Quantum Information Processing Using Various Ion Traps
- Development of an Entangled Photon Pair Generator for Quantum Satellites
Dohun Kim
Semiconductor Quantum Computing
- 5-Qubit Silicon Quantum Processor & Two-Dimensional Qubit Lattice
- Research on Semiconductor-Superconductor Hybrid Systems
- 10 mK Cryogenic Quantum Computing System
Jungsang Kim
Ion Trap Quantum Computing
- Ion Trap based Quantum Computing Technology (Co-Founder of IonQ)
- Large-Scale Optical Cross-Connect Switches for Optical Communication (Bell Labs)
Eunjong Kim
Superconducting Quantum Information
- Observation of Coherent Dynamical Effects in Open Quantum Optical Systems
- Pioneering Quantum Computer/Simulator Fabrication Technologies
- Conducting Research on Topological Quantum Optical Effects and Many-Body Physics
Seungyong Hahn
Superconducting Quantum Computing
- Proposal of High-Temperature Superconducting No-Insulation Winding Method
- Achievement of the World's Highest Direct Current Magnetic Field (45.5 Tesla)
- Development of a Superconducting Quantum Circuit Design Platform
