报告题目：Unconventional magnetism

报告时间：2025年2月20日（周四）15:30

报告地点：鼓楼校区唐仲英楼 B501

报  告 人：吴从军（西湖大学）

摘      要：

Over two decades ago a mechanism for generating what later termed unconventional magnetism (UM) [1] was proposed in analogy to unconventional superconductivity (PRL 93, 36403 (2004)). It is based on quantum phase transitions of the Landau-Pomeranchuk Fermi surface instability, spontaneously generating spin-multipole ordering and momentum-dependent spin splitting. Later theoretical investigation was systematically developed by Wu, Sun, Zhang and Fradkin (PRB 75, 115103(2007)): The symmetry and topological defects were analyzed by composed operations of non-equivalent orbital and spin rotations, i.e., spin-space group type operations in later literatures; properties proposed for experiment tests include temperature-dependent spin splitting detectable by ARPES and Shubnikov–de Haas oscillations, coupling between strain and magnetization, and resonance modes in inelastic neutron scatting spectra, etc. UM was generalized to orbital band systems to explain the nematic metamagnetism observed in Sr₃Ru₂O₇ (PRB 80, 104438(2009)).

From the symmetry perspective, altermagnetism corresponds to the collinear version of UM (alpha-phase) in even partial-wave numbers. It is worth mentioning that the distorted Fermi surfaces in the d-wave state and the spin current generation by charge current shown in Wu’s presentation in 2007 [1] are the same as the now-iconic illustration of altermagnetism. In addition, UM states can exhibit non-colinear spin multipole orders (beta-phase) and exist in odd partial-wave channels maintaining time-reversal symmetry beyond altermagnetism. These deep connections offer insights into their shared theoretical underpinnings. As for a recent development (arXiv:2501.13616), we reconcile conflicting experimental and theoretical reports in RuO₂ by attributing it to the proximity to a quantum phase transition [2]. We emphasize its potential as a platform for investigating quantum phase transitions and the broader realm of UM.

[1]The earliest online record of the term “Unconventional Magnetism” (to our knowledge) appears in a talk given by Wu at the KITP, UCSB on May 16, 2007, https://online.kitp.ucsb.edu/online/coldatoms07/wu1/

[2]Comparison between unconventional superconductivity and magnetism

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