Physicists help unravel the atomic and nuclear structure of nobelium
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Research published in Nature describes how laser spectroscopy has been successfully applied to reveal the atomic structure of a transfermium element, Nobelium, for the first time.
Nobelium atoms were produced at the GSI Helmholtzzentrum in Darmstadt, Germany using fusion evaporation reactions.
In a break-through experiment, researchers used a high energy 217 MeV beam of 48Ca ions to impact on thin isotopically-enriched lead foil targets. They then velocity-filtered the Nobelium products inflight, decelerated and delivered them into a buffer gas cell.
Here, a set of five tuneable lasers were used in an exhaustive search of a theoretically probable, but wide frequency range for an optical resonance.
Neutral atoms were repeatedly pulse-heated off a catcher filament, interrogated using a two-step resonance ionisation process, and the Nobelium ions identified via their characteristic alpha decay fingerprint.
Rates as low as 1 atom per second were sufficient for success, allowing location of an excited atomic state in such a heavy element.
Having no primordial isotopes meant that unlike conventional optical spectroscopy for nuclear structure studies, the atomic physics was completely unknown, and could only be studied “live” at an accelerator facility, with beam time at a premium.
Bradley Cheal, from the University’s Department of Physics, said: “Scanning the first laser beam in high resolution now opens up exciting ways for physicists to study a number of fundamental properties, including the hyperfine structure, unveiling isotopic changes in nuclear charge radius, shape, magnetic moment and spin. Scanning the second (ionising) step permits an extraction of the ionisation potential via the converging Rydberg series.”
The experiments were conducted by an international collaboration of scientists from GSI, the Helmholtz Institute Mainz, Johannes Gutenberg University Mainz, Technical University Darmstadt (Germany), KU Leuven (Belgium), and TRIUMF (Vancouver, Canada).
Researchers from the Department of Physics (Dr Cheal and PhD student Calvin Wraith) participated in the experiments and Calvin visited GSI for several months for the vital preparatory work ahead of the accelerator beam time.
The paper is published in Nature and can be found at this weblink:
Further information can be found at doi:10.1038/nature19345.