Nag Abhishek, Robarts H C, Wenzel F, Li J, Elnaggar Hebatalla, Wang Ru-Pan, Walters A C, García-Fernández M, de Groot F M F, Haverkort M W, Zhou Ke-Jin
Diamond Light Source, Harwell Campus, Didcot OX11 0DE, United Kingdom.
H. H. Wills Physics Laboratory, University of Bristol, Bristol BS8 1TL, United Kingdom.
Phys Rev Lett. 2020 Feb 14;124(6):067202. doi: 10.1103/PhysRevLett.124.067202.
Understanding many-body physics of elementary excitations has advanced our control over material properties. Here, we study spin-flip excitations in NiO using Ni L_{3}-edge resonant inelastic x-ray scattering (RIXS) and present a strikingly different resonant energy behavior between single and double spin-flip excitations. Comparing our results with single-site full-multiplet ligand field theory calculations we find that the spectral weight of the double-magnon excitations originates primarily from the double spin-flip transition of the quadrupolar RIXS process within a single magnetic site. Quadrupolar spin-flip processes are among the least studied excitations, despite being important for multiferroic or spin-nematic materials due to their difficult detection. We identify intermediate state multiplets and intra-atomic core-valence exchange interactions as the key many-body factors determining the fate of such excitations. RIXS resonant energy dependence can act as a convincing proof of existence of nondipolar higher-ranked magnetic orders in systems for which, only theoretical predictions are available.
对元激发的多体物理的理解推动了我们对材料特性的控制。在此,我们使用镍L₃边共振非弹性X射线散射(RIXS)研究了NiO中的自旋翻转激发,并展示了单自旋翻转激发和双自旋翻转激发之间显著不同的共振能量行为。将我们的结果与单格点全多重态配体场理论计算进行比较,我们发现双磁振子激发的光谱权重主要源于单个磁格点内四极RIXS过程的双自旋翻转跃迁。尽管四极自旋翻转过程因其难以探测而对多铁性或自旋向列材料很重要,但它却是研究最少的激发之一。我们确定中间态多重态和原子内芯价交换相互作用是决定此类激发命运的关键多体因素。对于只有理论预测的系统,RIXS共振能量依赖性可以作为非偶极高阶磁序存在的有力证据。
