Three is the magic number of atoms, physicists prove.
FRANKFURT (CyHAN)- Physicists in Frankfurt have found the long sought-after Efimov state in the helium trimer, an effect first predicted by Russian theoretician Vitaly Efimov in 1970.
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The Efimov effect, a quantum state first proposed more than 40 years ago in which two atoms that normally repel each other become strongly attracted when a third atom is introduced, has been proved by physicists from Goethe University in Frankfurt.
In 1970, Vitaly Efimov analyzed a three-body quantum system in which the attraction between two bodies reduced such that they become unbound. His prediction was that instead of breaking up, the molecule consisting of three particles can support an infinite number of bound states with huge distances between the binding partners.
"Every classical notion as to why such a structure remains stable fails here", explains Professor Reinhard DE[micro]rner, head of the research group at the Institute for Nuclear Physics, and the bizarre prediction has fascinated physicists since, leading to the currently booming field of "Efimov physics."
However, until recently, experiments to prove the existence of the Efimov State had failed; The first experimental observation of Efimov's scenario was in 2006, when a team of scientists from the Universities of Chicago and Innsbruck reported observing the Efimov state with three cesium atoms, a soft metal used in atomic clocks, in a vacuum chamber at the ultracold temperature of a billionth of a degree above absolute zero.
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The observation led to many more experimental investigations, and in an article published in the journal Science on Friday, physicians led by Dr. Maksim Kunitsky at Goethe University in Frankfurt announced the discovery of the Efimov state in the helium trimer, considered the prime example of this quantum mechanical effect.
The researchers produced a stable Efimov system consisting of three helium atoms, by pressing gaseous helium at a temperature of only eight degrees above absolute zero through a tiny nozzle into a vacuum. In this ultracold molecular beam, helium molecules with two, three or more helium atoms are formed. By diffraction of the molecular beam at a super-fine transmission grating, the physicist was able to spatially separate the trimers. (Cihan/Sputnik)
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