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Group 1 (Hybrid)
Group 1 (Hybrid)
Research Areas
Error Resilience
- Research on error-resilient quantum computing using hybrid quantum entanglement
Quantum AI
- Study of quantum machine learning based on hybrid physical quantities in photonic systems
- Optimization of photonic hybrid machine learning from a network perspective
Quantum Optics
- Research on quantum networks based on two-dimensional materials
Group Achievements
Hyunseok Jeong
Quantum Information
- Proposal and Implementation of Schrödinger Cat Qubits
- Proposal and Implementation of Hybrid Entangled Qubits
- Proposal of a Quantum Computing Method That Raises Error Tolerance Thresholds
Namkyoo Park
Fault-mitigating Quantum Computing
- Achieving Fault Tolerance of Photonic Qubits and Gates Based on Topology
- Research on the Integration of Photonic Quantum Circuits Through Time-Domain Control
- Analysis of Quantum Circuits Based on Network Theory and Proposal of a Pruning Technique
Jieun Lee
2D Materials Quantum Technology
- Implementation of Quantum Devices Using Two-Dimensional van der Waals Materials
- Measurement of Stark Effect in Room-Temperature Quantum Light Sources
- Development of Cryogenic and High-Magnetic-Field Optical Measurement Systems
