Hui-Ke Jin, Wilhelm Kadow, Michael Knap, Johannes Knolle
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引用次数: 0
摘要
我们研究了空穴掺杂对基塔耶夫自旋液体(KSL)的影响,发现对于铁磁性(FM)基塔耶夫交换 K,该系统非常容易形成 FM 自旋极化。通过对有限系统进行密度矩阵重正化群模拟,我们发现,在我们所考虑的系统尺寸中,引入单个空穴(对应于≈1%的空穴掺杂),其跳跃强度仅为 t ~ 0.28K,就足以破坏分化,并由于逐阶失序机制而使自旋在 [001] 方向极化。考虑到与材料相关的调频各向异性交换Γ,通过过渡到具有手性磁子激发的拓扑调频态,将极化推向[111]方向。我们发展了一种包含费米子全子和玻色子磁子的粒子均场理论,它解释了掺杂诱导的调频态和拓扑磁子激发。我们讨论了基塔耶夫候选材料的实验意义。
Kinetic ferromagnetism and topological magnons of the hole-doped Kitaev spin liquid
We study the effect of hole doping on the Kitaev spin liquid (KSL) and find that for ferromagnetic (FM) Kitaev exchange K the system is very susceptible to the formation of a FM spin polarization. Through density matrix renormalization group simulations on finite systems, we uncover that the introduction of a single hole, corresponding to ≈1% hole doping for the system size we consider, with a hopping strength of just t ~ 0.28K is enough to disrupt fractionalization and polarize the spins in the [001] direction due to an order-by-disorder mechanism. Taking into account a material relevant FM anisotropic exchange Γ drives the polarization towards the [111] direction via a transition into a topological FM state with chiral magnon excitations. We develop a parton mean-field theory incorporating fermionic holons and bosonic magnons, which accounts for the doping induced FM phases and topological magnon excitations. We discuss experimental implications for Kitaev candidate materials.
期刊介绍:
npj Quantum Materials is an open access journal that publishes works that significantly advance the understanding of quantum materials, including their fundamental properties, fabrication and applications.
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