Synopsis

How do you trap a very high-energy ion?

Physics 1, s59
The report of a successful experiment at the new radioactive ion trap at RIKEN paves the way for future measurements of more exotic nuclei, and tests some of the key methods needed to build future rare-isotope accelerators.
Illustration: Courtesy of M. Wada

Measurements of nuclear moments give details about nuclear structure that cannot be obtained in any other way. However, traditional methods like nuclear magnetic resonance (NMR) and nuclear quadrupole resonance (NQR) require large numbers of stable nuclei to make a measurement and cannot be applied to unstable radioactive nuclei, which are usually produced in very small numbers. Instead, these unstable nuclei are best measured in traps, where atoms can be held for a long enough time to make sensitive measurements. The challenge is to take nuclei that were created in a high-energy collision and slow, trap, and cool them to make a precision measurement.

Writing in Physical Review Letters, a group at the newly commissioned Slow Radioactive Ion (SLOWRI) facility at RIKEN in Japan reports they have trapped and measured the magnetic moment of unstable 7Be ions. The group starts with 7Be ions from a high-energy fragmentation reaction and cools away 15 orders of magnitude in their kinetic energy, leaving trapped ions with temperatures less than 10 mK. The RIKEN team then used a laser method to measure the atomic hyperfine structure of the ions to deduce the nuclear magnetic moment of 7Be.

These measurements help determine the nuclear structure of 7Be, but they also provide a baseline for understanding more exotic isotopes, such as 11Be, where the extra neutrons are weakly bound and may form a neutron “halo” that could be detected from anomalies in the hyperfine structure.

This first successful experiment at RIKEN paves the way for further experiments of radioactive nuclei in the ion trap at RIKEN. The general method of stopping the ions in a gas cell and then forming a low-energy ion beam is an important component of accelerators that are under construction or planned for the future. – Gene Sprouse


Subject Areas

Nuclear Physics

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