RIBF Nuclear Physics Seminar

Hunting for mysterious ultra-low energy isomer of Thorium-229--- to realize ultimate "nuclear clock”

by Prof. Koji YOSHIMURA (Research Institute for Interdisciplinary Science, Univ.)

Asia/Tokyo
201 (RIBF Hall)

201

RIBF Hall

Description

=Date and Place=

May.22nd(Tue.), 13:30- at RIBF Hall

 

=Lecturer=

Prof. Koji YOSHIMURA

(Research Institute for Interdisciplinary Science, Okayama Univ.)

 

=Title=

Hunting for mysterious ultra-low energy isomer of Thorium-229--- to realize ultimate "nuclear clock”

 

=Abstract=

Among thousands of nuclei, the isotope Thorium-229 is the only nucleus which has nuclear level of a few electronvolts. The state, if it really exists low-lying and long-lived, could be manupilated with coherent laser optics, which are commonly used in atomic physics. One promising application is the "nuclear clock". Since nuclei are shielded with core electrons, "nuclear clock" is less sensitive to external field and could potentially outperform atomic clock. The transtion could also be utilized for many appications, including test of temporal variation of fundamental physics constant and so on.

To utilize the isomeric transition, we should first observe it and determine its energy level precisely enough for laser excitation. Despite many experimental attempts for more than forty years, there has been only one success in direct detection of the transition, which is done by German group using internal conversion electrons in 2016.  Mysterious veil are now being removed but neither precise energy information nor direct optical transition are not obtained yet. Aiming at the detection of optical transition, we have been developing the new method using nuclear resonant scattering with synchrotron radiation X-ray.  In this seminar, I will introduce  recent progress in the Thorim-229 project and its future prospect.

 

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