Atom Trap Trace Analysis for radiokrypton and radioargon dating
POSTER
Abstract
Atom Trap Trace Analysis (ATTA), a MOT-based atom counting method, is used to analyze three noble gas radioisotopes ($^{81}$Kr, $^{85}$Kr, $^{39}$Ar) covering a wide range of geological ages and applications in the earth sciences. Their isotopic abundances are extremely low, in the range of 10$^{-16}$ -- 10$^{-11}$. Yet, ATTA can trap and unmistakably detect these rare isotopes one atom at a time. The system is currently limited by the excitation efficiency of the RF discharge that produces the metastable atoms (Kr* {\&} Ar*) needed for laser trapping. To further improve the MOT loading rate, we plan to replace the RF discharge with a photon excitation scheme that employs a VUV light source at 124 nm. The VUV source can be a lamp or a free electron laser.
*This work is supported by DOE, Office of Nuclear Physics and by NSF, Division of Earth Sciences