Perpendicular magnetic anisotropy in a single Dy adatom ferrimagnet.

IF 3.9 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Scientific Reports Pub Date : 2025-10-17 DOI:10.1038/s41598-025-20466-z

Alexander B Shick, Frantisek Maca, Itzhak Halevy, Dominik Legut

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Abstract

The electronic structure and magnetism of individual Dy atoms adsorbed on ferromagnetic (Gr)/Ni(111) substrate are investigated using a combination of the density functional theory with the Hubbard-I approximation to the Anderson impurity model (DFT+U(HIA)). The divalent Dy[Formula: see text] adatom in [Formula: see text] configuration with [[Formula: see text]] is found. The values of spin [Formula: see text]=3.4 [Formula: see text], orbital [Formula: see text]=5.2 [Formula: see text], and total [Formula: see text]=8.6 [Formula: see text] magnetic moments calculated for the Dy f-shell are noticeably different from the atomic second Hund's rule. There is almost zero moment on (Gr)-atoms. The ferromagnetic Ni substrate moments are anti-aligned to the Dy 4f-shell moment. The X-ray absorption (XAS) and magnetic circular dichroism (XMCD) spectra are calculated and can be compared to the experimental data. The magnetic anisotropy energy (MAE) is calculated from the ground state energy difference for different directions of the magnetization, E[100] - E[001] = 3.5 meV and E[010] - E[001] = 2.2 meV. This large and positive MAE can be important for ultra-high density magnetic recording. The magnetization of Dy@(Gr)/Ni(111) is tilted with respect to the (Gr)/Ni(111) substrate normal by [Formula: see text] due to a competition between negative first and third order magnetic anisotropies and strong and positive second order magnetic anisotropies. Our studies assist in resolving ambiguities of conventional DFT+U applied to Dy on graphene. They can provide a viable route for further investigation and prediction of the rare-earth based magnetic nanostructures.

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单Dy原子铁磁体的垂直磁各向异性。

结合密度泛函理论和安德森杂质模型（DFT+U(HIA)）的hubard - i近似，研究了吸附在铁磁(Gr)/Ni（111）衬底上的Dy原子的电子结构和磁性。发现[[公式：见文]]构型中的二价Dy[公式：见文]配原子具有[[公式：见文]]。Dy - f壳层的自旋[公式：见文]=3.4[公式：见文]，轨道[公式：见文]=5.2[公式：见文]，总[公式：见文]=8.6[公式：见文]的磁矩值与原子秒亨德规则有明显的不同。（Gr）-原子上的力矩几乎为零。铁磁性Ni衬底力矩与Dy 4f-壳层力矩相反。计算了x射线吸收谱（XAS）和磁圆二色谱（XMCD），并与实验数据进行了比较。根据不同磁化方向下的基态能量差计算出磁性各向异性能，E[100] - E[001] = 3.5 meV, E[010] - E[001] = 2.2 meV。这种大而正的MAE对于超高密度磁记录非常重要。由于负的一阶和三阶磁性各向异性与强的和正的二阶磁性各向异性之间的竞争，Dy@(Gr)/Ni（111）的磁化相对于(Gr)/Ni（111）衬底是倾斜的[公式：见文本]。我们的研究有助于解决传统DFT+U应用于石墨烯上的Dy的模糊性。这为进一步研究和预测稀土基磁性纳米结构提供了一条可行的途径。

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来源期刊

Scientific Reports Natural Science Disciplines-

CiteScore

7.50

自引率

4.30%

发文量

19567

审稿时长

3.9 months

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