Theoretical Physics:

Elementary particle physics; nonlinear physics; field theory and particle physics.

Particle Physics and Nuclear Physics:

Nuclear technology and its application; nuclear information processing.

Atomic and Molecular Physics:

Atomic  and molecular collision, atomic and cluster structure and spectrum,  molecular structure and spectrum, atomic, molecular status and change  under static high pressure and dynamic high pressure, atomic, molecular  design and synthetic of material, light and atom, molecule interaction,  structure and function of large bio-molecule.

Plasma Physics:


Condensed Matter Physics:

Semiconductor materials and devices; thin-film material and technology.


Optical-electronics signal processing, laser physics and technology; and light scattering.

Physics in Biology and Medicine:


Applied Electronic Physics:


Radiotherapy Physics:


Nuclear Fuel Cycle and Materials:

Interaction  between the nuclides and matters, nuclear and radiochemistry, treatment  of nuclear wastes and environmental protection, surface physics and  chemistry of light actinide elements.

Nuclear Technology and Application:

Radiation physics and medical physics; measuring and control technology and its application; radiation effect in solid.

Radiation and Environmental Protection:

Radiation physics and radiation and environmental protection,  applied chemistry in environment.

Microelectronics and Solid-state Electronics:

Microelectronics material and devices, microelectronics optics and IC design.