Dr. Zheng-Tian Lu

Physics Division, Argonne National Laboratory
The Department of Physics and Enrico Fermi Institute, The University of Chicago

``Atom Trap, Krypton-81, and Saharan Water''

Since radiocarbon dating was first demonstrated in 1949, the field of trace analyses of long-lived cosmogenic isotopes has seen steady growth in both analytical methods and applicable isotopes. The impact of such analyses has reached a wide range of scientific and technological areas. A new method, named Atom Trap Trace Analysis (ATTA), was developed by our group and used to analyze ⁸¹Kr (t_1/2 = 2.3x10⁵ years, isotopic abundance ~ 1x 10^-12) in environmental samples. In this method, individual ⁸¹Kr atoms are selectively captured and detected with a laser-based atom trap. ⁸¹Kr is produced by cosmic rays in the upper atmosphere. It is the ideal tracer for dating ice and groundwater in the age range of 10⁴ - 10⁶ years. As the first real-world application of ATTA, we have determined the mean residence time of the old groundwater in the Nubian Aquifer located underneath the Sahara Desert. Moreover, this method of capturing and probing atoms of rare isotopes is also applied to experiments that study exotic nuclear structure and test fundamental symmetries.

3:30 PM, Friday, January 20, 2006

Room 155, Chem-Phys Building

Dr. Zheng-Tian Lu

Physics Division, Argonne National Laboratory The Department of Physics and Enrico Fermi Institute, The University of Chicago

``Atom Trap, Krypton-81, and Saharan Water''

Refreshments will be served in CP 155 at 3:15 PM

Physics Division, Argonne National Laboratory
The Department of Physics and Enrico Fermi Institute, The University of Chicago