Quantum Dynamics and Information Laboratory69
Theoretical studies on quantum dynamics & information
Quantum dynamics enables us to explore fundamental properties of materials and quantum information theory. We theoretically investigate these quantum dynamics and information with model calculation and first-principle density functional theory.
Main frameworks of our study
- Coherence, Entanglement, and Quantum information
- Ultrafast dynamics and non-equilibrium properties of materials
- Semiconducting materials, low-dimensional materials, and strongly-correlated systems
- Advanced functional nano applications and their physical principles.
Advisor Professor : Lee, JaeDong
Quantum Dynamics and Information Laboratory Homepage
Quantum dynamics enables us to explore fundamental properties of materials and quantum information theory. We theoretically investigate these quantum dynamics and information with model calculation and first-principle density functional theory.
Main frameworks of our study
- Coherence, Entanglement, and Quantum information
- Ultrafast dynamics and non-equilibrium properties of materials
- Semiconducting materials, low-dimensional materials, and strongly-correlated systems
- Advanced functional nano applications and their physical principles.
Advisor Professor : Lee, JaeDong
Quantum Dynamics and Information Laboratory Homepage
Subject
- Magnetization 2
- MECHANISM 2
- Metals 2
- MOFS 2
- MOS2 2
- NANOSHEETS 2
- POLARIZATION 2
- REAL-TIME OBSERVATION 2
- SCATTERING 2
- SINGLE-LAYER MOS2 2
Date issued
- 2020 - 2025 29
- 2012 - 2019 39
Co-Author(s)
Related Keyword
Recent Submissions
- Floquet engineering of excitons in monolayer MoS2
- Strain-Induced Bandgap Narrowing in Crumpled TMDs for NIR Light Detection
- Wafer-scale AA-stacked hexagonal boron nitride grown on a GaN substrate
- Tunable Polariton Rabi Oscillation in Phase-Changing Perovskite Microcavities
- Gate-tunable quantum pathways of massless Dirac fermions in high harmonic generation