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Magnetic anisotropy in surface-supported single-ion lanthanide complexes

Single-ion lanthanide-organic complexes can provide stable magnetic moments with well-defined orientation for spintronic applications on the atomic level. Here, we show by a combined experimental approach of scanning tunneling microscopy and X-ray absorption spectroscopy that dysprosium-tris(1,1,1-trifluoro-4-(2-thienyl)-2,4butanedionate) (Dy(tta)$_3$) complexes deposited on a Au(111) surface undergo a molecular distortion, resulting in distinct crystal field symmetry imposed on the Dy ion. This leads to an easy-axis magnetization direction in the ligand plane. Furthermore, we show that tunneling electrons hardly couple to the spin excitations, which we ascribe to the shielded nature of the $4f$ electrons.

preprint2016arXivOpen access
Paul StollMatthias BernienDaniela RolfFabian NickelQingyu XuClaudia HartmannTobias R. UmbachJens KoppraschJanina N. LadenthinEnrico SchierleEugen WeschkeConstantin CzekeliusWolfgang KuchKatharina J. Franke
cond-mat.mes-hallphysics.chem-ph
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Open access14 authors2 topics
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Paul StollMatthias BernienDaniela RolfFabian NickelQingyu XuClaudia HartmannTobias R. UmbachJens KoppraschJanina N. LadenthinEnrico SchierleEugen WeschkeConstantin CzekeliusWolfgang KuchKatharina J. Franke

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