Fields of Research and Program Application
The Key Laboratory of Nuclear Analytical Techniques (KLNAT) is a joint research base founded by the Shanghai Institute of Applied Physics (SINAP) and the Institute of High Energy Physics (IHEP), the Chinese Academy of Sciences. It opens to all researchers, who are interested in developing nuclear analytical techniques and making use of them for inter-disciplinary studies. Program applications shall be submitted to the KLNAT Academic Committee for approval. Upon approval, the applicators shall be arranged to work on his/her program at KLNAT (either Shanghai or Beijing Division). In addition, KLNAT welcomes anyone who hopes to perform his/her research project granted elsewhere on KLNAT facilities.
Organization
Board of Directors
Chairman
WEI Long Institute of High Energy Physics, Chinese Academy of Sciences, Beijing
Vice Chairmen
ZHU Zhiyong Institute of Applied Physics, Chinese Academy of Sciences, Shanghai
ZHANG Zhiyong Institute of High Energy Physics, Chinese Academy of Sciences, Beijing
Methods Available at KLNAT
Ion Beam Analysis |
Nuclear microprobe system |
Proton elastic scattering |
Ultra high vacuum system |
Particle include X-ray emission |
Rutherford backscattering and ion channeling |
Nuclear reaction analysis |
Elastic recoil detection |
|
Activation Analysis |
Instrumental neutron activation analysis |
Radiochemical neutron activation analysis |
Charged particle activation analysis |
Nuclear Effects and Other Nuclear Analysis Techniques |
Mössbauer spectroscopy |
Solid state nuclear track detection |
Perturbed angular correlation |
Scanning tunneling microscopy |
Positron annihilation spectroscopy |
Total reflection X-ray fluorescence |
INTERDISCIPLINARY APPLICATIONS
A. Life Sciences |
1 |
Single molecular detecting and manipulating |
2 |
Mechanisms of biological effects of trace elements (TE) |
3 |
Interactions between TE and bio-macromolecules |
4 |
Nano-structure of bio-macromolecules |
5 |
TE and human health and diseases |
6 |
TE data bank, standard reference materials |
7 |
TE and farming technological development (TE fertilizers and TE feed) |
8 |
Isotopic tracing to search for novel growth for farm plants |
B. Environmental and Geo-Sciences |
1 |
Boundary events studies |
2 |
Pre-historical environments and petrology |
3 |
Long-distance transferring of airborne particles and the effects |
4 |
Chemical dating and archaeology |
5 |
Interfacial material exchange in the environment |
6 |
Geological survey and mechanisms of mineral formation |
C. Material Sciences ( semi conductors, insulators, nano-crystalline, amorphous and alloys) |
1 |
Determination of ion-implantation induced damages and impurity locations ion beam or γ-ray modification of materials |
2 |
Trace impurities and their effects on material properties |
3 |
Nano-crystal and nano-structure studies |
4 |
Material surface and interface studies under UHV |
5 |
Special or artificial structural materials |
6 |
Chemical reaction dynamics |
7 |
Property investigations of polymeric materials |
D. Novel Applications of Nuclear Analysis in Other Areas |
E. The Investigation of Carbon Nanotube, Fullerenes and Fullerites |
Contact Us
Mr. Feng Xiangqian, e-mail: fengxq@ihep.ac.cn
Key Laboratory of Nuclear Analytical Techniques, Institute of High Energy Physics, Chinese Academy of Sciences
P.O.Box 918, Beijing 100049, China
Tel: +86-10-88236418 Fax: +86-10-88235294