Hydrodynamics and instabilities in magnetized plasmas Magnetic reconnection physics Topological interactions in plasmas: magnetic vorticity (helicity) and kinetic vorticity Development of advanced plasma diagnostic tools High-pressure plasma physics, Med
Surface and Interface Physics Nano Physics Atomic Structures, Electronic Properties, Magnetism, and Dynamics
Quantum Nano-Photonics Our primary research interests are Quantum/Nonlinear Integrated Nano-Photonics and Optomechanics. With the aid of well-developed nano-fabrication technologies, the integration of photonic components into a wafer yields an important
Future Accelerator Design PAL-XFEL Upgrade of the Pohang Light Source [PLS] Storage Ring
Complexity in Social System Laboratory
Single-Molecule Biophysics Laboratory Our group uses force spectroscopy (hydrodynamic force, Optical tweezers), a single particle tracking, single-molecule FRET, or their combinations to study the biological questions.
Femtosecond X-ray Diffraction and Imaging Science Laboratory Nanoscale quantitative 3D imaging Ultrafast single-shot dynamic imaging Serial femtosecond crystallography
Theoretical Condensed Matter Physics: Interplay between symmetry and topology
Complex system analysis and modeling Measuring the fractal dimension of complex networks Neuroscience Neuronal modeling
Attosecond science and metrology Femtosecond science and X-ray technology Nano science
Nonperturbative aspects of string and M-theory Supersymmetric field theory Physics of black holes
QUANTUM INFORMATION QUANTUM ENTANGLEMENT ATOM-PHOTON INTERACTIONS
TNTL studies electron transport in nanoscale systems theoretically with emphasis on spin related effects.
Applied Optics Laboratory Research in AOL is focused on the experimental study of fundamental phenomena as well as optical applications related with Digital Holography and Optical measurement.
Low-Dimensional Topological Matter Strongly-Correlated Low-Dimensional Systems and Their Heterointerfaces
Probing the principles and origins of multifunctionallity Development of multifunctional device Development of new concept nano device
Electronic structure calculations using the Density Functional Theory
Superconductivity Magnetic domain formation and exotic spin textures
Investigating structural and magnetic properties using the various x-ray scattering techniques
Plasma Sheath Laboratory Basic Plasma Experiment Fusion Plasma - KSTAR Project (G-7) ECR Plasma Ion Source Development for proton beam source Plasma Diagnostics
Calorimetry and Thermal Analysis X-ray scattering and absorption Amorphous Materials Thin Films and Multilayers (POSTECH Multilayer Group)
The research in the Lab. for Advanced Materials and Extreme conditions (AMEX) at POSTECH has focused on the design, growth and characterization of advanced low-dimensional materials with emergent quantum properties under extreme conditions.
Quantum Transport and Superconductivity Laboratory
Scanning Tunneling Microscopy/Spectroscopy of Nanomaterials
[김동언 교수 연구실] 피코미터( 1조분의 1 m) 수준의 실측으로 나노구조체 동역학 실시...
APCTP 정우성 사무총장 ‘국무총리 표창’
Department of Physics, POSTECH