Orbital selective 5f electron character, indication of Kondo effect, and subatomic features of single uranium atoms

Wei Feng, Ping Yang, Bingkai Yuan, Zhenpeng Hu, Xiegang Zhu, Qunqing Hao, Yun Zhang, Qiang Zhang, Bo Wang, Shiyong Tan, Xinchun Lai, Qin Liu, Qiuyun Chen

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3 Scopus citations

Abstract

In actinide-based materials, the multiplicity of 5f orbitals provides a rich setting to elucidate the large and outstanding issues of the competition and interplay among different channels of interactions. Among them, the dual character of 5f electrons has been studied in some 5f electron Kondo lattice compounds. Here, by using scanning tunneling microscopy/spectroscopy (STS), we present the indication of Kondo effect driven by 5f electrons and subatomic features of single U atoms on graphene/6H-SiC(0001), Cu2N/Cu(100), and Bi(110). For all three systems, an asymmetric-dip spectral feature can be observed around the Fermi energy, which is an indication of Kondo resonance in STS. The size of the "screening cloud"for single U atoms on Bi(110) is much larger than that observed on graphene/6H-SiC(0001) and Cu2N/Cu(100), indicating the 5f electrons of single U atoms on Bi(110) are more itinerant than that on the other two substrates. In addition to the asymmetric spectrum feature around the Fermi energy, various subatomic spectrum features are also observed from the dI/dV maps of U atoms on different substrates. Further density-functional theory calculations show that these distinct subatomic features arise from the orbital selective hybridizations between U atoms and the substrates. Our results present the distinct observation of the orbital selective 5f electron character, indication of Kondo effect, and together with the subatomic features of individual 5f impurity magnetic atoms adsorbed on nonmagnetic surfaces.

Original languageEnglish
Article number075136
JournalPhysical Review B
Volume107
Issue number7
DOIs
StatePublished - Feb 15 2023
Externally publishedYes

Funding

We gratefully acknowledge helpful discussions with Professor P. Coleman, G. M. Zhang, H. Y. Gao, L. Chen, Dr. L. Jiao, and R. Z. Qiu. This work was supported by the National Key Research and Development Program of China (Grant No. 2022YFA1402201) and the National Natural Science Foundation of China (Grants No. 12122409, No. 11974319, No. 11874330, No. 11774320, No. 11904334, and No. 11904335).

FundersFunder number
National Natural Science Foundation of China11874330, 11904335, 11774320, 11974319, 12122409, 11904334
National Key Research and Development Program of China2022YFA1402201

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