Physics

Rarest Element on Earth Measured For First Time at CERN

Mark Hoffman
First Posted: May 15, 2013 04:08 PM EDT

Scientists artificially created isotopes of the radioactive element astatine, which only occurs in trace amounts naturally, in the CERN laboratory to analyze it. The international team of physicists at the radioactive-beam facility ISOLDE now succeeded to measure the ionization potential of the rare element for the first time, a key parameter that defines the chemical properties of any element.

The ionization potential of an element is the energy needed to remove one electron from the atom, thereby turning it into an ion. This measurement is related to the chemical reactivity of an element and, indirectly, to the stability of its chemical bonds in compounds.

The value for astatine, published in the journal Nature Communications, could help chemists to develop applications for the element in radiotherapy, and will serve as a benchmark for theories that predict the structure of super-heavy elements.

The measurement fills a long-standing gap in the periodic table; astatine is the last element present in nature for which this fundamental property remained unknown. The element is of particular interest because isotopes of astatine are candidates for the creation of radio-pharmaceuticals for cancer treatment by targeted alpha therapy.

"None of the many short-lived isotopes used in medicine exist in nature; they have to be artificially produced by nuclear reactions," says Bruce Marsh of the resonance ionization laser ion source (RILIS) at ISOLDE. "The possible medical isotopes of astatine are not so different in this respect.  What is different about astatine is that its scarcity in nature makes it difficult to study by experiment, which is why this measurement of one of the fundamental properties is a significant achievement. "

The experimental value for astatine also serves for benchmarking theories that predict the atomic and chemical properties of super-heavy elements the researchers said, in particular the recently discovered element 117, an astatine homologue.

These super-heavy elements, everything above 100, don't exist at all naturally and are artificially created in huge high-energy laboratories by smashing different lighter elements into each other to fuse them. The heaviest element made until today is Copernicium with element number 118, created and named by German scientists in 2010.

"In-source laser spectroscopy today is a most sensitive method to study atomic properties of exotic short-lived isotopes," says RILIS team leader Valentin Fedosseev. "It is well suited to explore the spectra of artificially produced elements, like the super-heavy ones. The success in this study of astatine has added confidence for similar projects started recently at GANIL, France and at JINR, Russia."

Paper:

Measurement of the first ionization potential of astatine by laser ionization spectroscopy

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