焦绿石晶格上的近线性轨道分子。

Nearly linear orbital molecules on a pyrochlore lattice.

作者信息

Krajewska Aleksandra, Yaresko Alexander N, Nuss Jürgen, Bette Sebastian, Gibbs Alexandra S, Blankenhorn Marian, Dinnebier Robert E, Sari Dita P, Watanabe Isao, Bertinshaw Joel, Gretarsson Hlynur, Ishii Kenji, Matsumura Daiju, Tsuji Takuya, Isobe Masahiko, Keimer Bernhard, Takagi Hidenori, Takayama Tomohiro

机构信息

Max Planck Institute for Solid State Research, 70569 Stuttgart, Germany.

Institute for Functional Matter and Quantum Technologies, University of Stuttgart, 70550 Stuttgart, Germany.

出版信息

Sci Adv. 2024 Oct 11;10(41):eadn3880. doi: 10.1126/sciadv.adn3880. Epub 2024 Oct 9.

DOI:10.1126/sciadv.adn3880

PMID:39383237

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11463279/

Abstract

The interplay of spin-orbit coupling with other relevant parameters gives rise to the rich phase competition in complex ruthenates featuring octahedrally coordinated Ru. While locally, spin-orbit coupling stabilizes a nonmagnetic = 0 state, intersite interactions resolve one of two distinct phases at low temperatures: an excitonic magnet stabilized by the magnetic exchange of upper-lying = 1 states or Ru molecular orbital dimers driven by direct orbital overlap. Pyrochlore ruthenates RuO ( = rare earth, Y) are candidate excitonic magnets with geometrical frustration. We synthesized InRuO with covalent In─O bonds. This pyrochlore ruthenate hosts a local = 0 state at high temperatures; however, at low temperatures, it forms a unique nonmagnetic ground state with nearly linear Ru─O─Ru molecules, in stark contrast to other RuO compounds. The disproportionation of covalent In─O bonds drives RuO molecule formation, quenching not only the local spin-orbit singlet but also geometrical frustration.

摘要

自旋轨道耦合与其他相关参数的相互作用，在具有八面体配位钌的复杂钌酸盐中引发了丰富的相竞争。虽然在局域上，自旋轨道耦合稳定了非磁性的(J = 0)态，但在低温下，位点间相互作用决定了两个不同相中的一个：由较高的(J = 1)态的磁交换稳定的激子磁体，或由直接轨道重叠驱动的钌分子轨道二聚体。烧绿石钌酸盐(Ru_2O_3)（(R =)稀土元素，(Y)）是具有几何阻挫的候选激子磁体。我们合成了具有共价In─O键的(InRu_2O_3)。这种烧绿石钌酸盐在高温下呈现局域(J = 0)态；然而，在低温下，它形成了一种独特的非磁性基态，其中钌氧钌分子近乎呈线性，这与其他(Ru_2O_3)化合物形成了鲜明对比。共价In─O键的歧化驱动了(RuO_6)分子的形成，不仅淬灭了局域自旋轨道单重态，还消除了几何阻挫。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/de65/11463279/9f0e60c39c6d/sciadv.adn3880-f1.jpg

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焦绿石晶格上的近线性轨道分子。

Nearly linear orbital molecules on a pyrochlore lattice.

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