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Highly Degenerate Ground States in a Frustrated Antiferromagnetic Kagome Lattice in a Two-Dimensional Metal–Organic Framework

Muqing Hua, Bowen Xia, Miao Wang, En Li, Jing Liu, Tianhao Wu, Yifan Wang, Ruoning Li, Honghe Ding, Jun Hu, Yongfeng Wang, Junfa Zhu, Hu Xu, Wei Zhao, Nian Lin

2021The Journal of Physical Chemistry Letters55 citationsDOI

Abstract

Realization of the Kagome antiferromagnetic (KAF) lattice is of high interest because the geometric frustration in the Kagome lattice is expected to give rise to highly degenerated ground states that may host exotic phases such as quantum spin liquid. Here we demonstrate the design and synthesis of a single-layer two-dimensional metal–organic framework (2D-MOF) containing a Kagome lattice of Fe(II) ions assembled on a Au(111) surface. First-principles calculations reveal that the Fe(II) ions are at a high spin state of S = 2 and are coupled antiferromagnetically with nearest-neighboring exchange J1 = 5.8 meV. The ground state comprises various degenerated spin configurations including the well-known q = 0 and q = √3 × √3 phases. Remarkably, we observe a spin excitation at 6 meV using tunneling spectroscopy. This work points out a feasible route toward realizing spin 1/2 KAF, a candidate quantum spin liquid system, by replacing Fe(II) by Cu(II) in the same structure.

Topics & Concepts

AntiferromagnetismCondensed matter physicsFrustrationGround stateDegenerate energy levelsQuantum spin liquidLattice (music)IonSpin (aerodynamics)PhysicsExcitationQuantumChemistrySpin polarizationQuantum mechanicsElectronAcousticsThermodynamicsAdvanced Condensed Matter PhysicsTheoretical and Computational PhysicsPhysics of Superconductivity and Magnetism