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Paper detail

Revealing the Atomic Site-Dependent g Factor within a Single Magnetic Molecule via the Extended Kondo Effect

The site-dependent g factor of a single magnetic molecule, with intramolecular resolution, is demonstrated for the first time by low-temperature, high-magnetic-field scanning tunneling microscopy of dehydrogenated Mn-phthalocyanine molecules on Au(111). This is achieved by exploring the magneticfield dependence of the extended Kondo effect at different atomic sites of the molecule. Importantly, an inhomogeneous distribution of the g factor inside a single molecule is revealed. Our results open up a new route to access local spin properties within a single molecule.

preprint2020arXivOpen access
Liwei LiuKai YangYuhang JiangBoqun SongWende XiaoShiru SongShixuan DuMin OuyangWerner A. HoferAntonio H. Castro NetoHong-Jun Gao
cond-mat.mes-hall
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Liwei LiuKai YangYuhang JiangBoqun SongWende XiaoShiru SongShixuan DuMin OuyangWerner A. HoferAntonio H. Castro NetoHong-Jun Gao

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