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AMU physics



29.10.2021

Article in APS Physics – Synopses

The APS published the commentary Kondo Cloud in a Superconductor in the Physics 14, s140, in section Synopses, about the paper by Ireneusz Weymann Phys. Rev. Lett. 127, 186804 (2021) . We are posting the reprint of the commentary by Rachel Berkowitz.

Lone Spin Remains Shielded Despite Superconductivity

October 27, 2021• Physics 14, s140

Researchers explore the question of whether a Kondo cloud—a phenomenon common in conventional metals—can also occur in superconductors.

In many metals, as the temperature drops, so does electrical resistance—but only until some threshold temperature, at which point resistance begins to increase. That puzzle can be explained by the presence of magnetic atoms in the metal. Unpaired electron spins in these impurities couple collectively with all of the metal’s free-flowing electrons to form an antiferromagnetic region called a Kondo cloud. Electrons within the cloud are impeded, increasing the material’s resistance, while the atoms’ unpaired spins are screened from their surroundings. Does the same phenomenon occur in superconductors, whose electron-pairing mechanism and many-body states are different? Paşcu Moca of the University of Oradea, Romania, in collaboration with Gergely Zaránd’s group at the Budapest University of Technology and Economics, Hungary, now provide evidence that the Kondo cloud may indeed survive in a superconductor [1].

Figure caption

Using numerical and analytical models, the researchers found that, for sufficiently strong exchange interactions between the atomic impurity and the superconducting host, the impurity formed a many-body singlet state, meaning that electrons formed a Kondo cloud and paired to the impurity’s spin as they would in a conventional metal. For weaker exchange interactions, the impurity’s spin remained unpaired. But even in that so-called doublet state, a weak screening cloud persisted. Moca and his colleagues determined that the strength of this screening cloud decayed exponentially in space, with its overall size depending on the superconductor’s band gap.

The finding that Kondo clouds appear in superconductors as well as conventional metals has implications for the behavior of quantum states in magnetic systems coupled to superconductors. Such systems are under investigation as a possible information-storage medium for quantum computing.

–Rachel Berkowitz

Rachel Berkowitz is a Corresponding Editor for Physics based in Vancouver, Canada.

References

  1. C. P. Moca et al., “Kondo cloud in a superconductor,” Phys. Rev. Lett. 127, 186804 (2021).
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