Open AccessNoncollinear phases in moiré magnets
Author(s) -
Kasra Hejazi,
Zhu-Xi Luo,
Leon Balents
Publication year - 2020
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.2000347117
Subject(s) - phase diagram , condensed matter physics , ferromagnetism , formalism (music) , zigzag , magnet , physics , quasiperiodicity , lattice (music) , theoretical physics , quantum mechanics , quasiperiodic function , phase (matter) , geometry , art , musical , mathematics , visual arts , acoustics
Significance Moiré patterns, which result when two or more two-dimensional materials with incommensurate or rotated lattices are layered together, create controllable electronic bands that have recently been shown to induce a tremendous wealth of physical phenomena. Here we initiate the theoretical study of moiré patterns’ influence on magnetic states of localized spins. We construct a general formalism using continuum field theory and present thorough analyses in twisted bilayers of antiferromagnets and also ferromagnets, which are within the experimental reach of Van der Waals materials. Two-dimensional magnets, well known for their strong intrinsic spin fluctuations, may serve as a new platform for moiré effects and open the door to a large class of novel phenomena that were once unimaginable.
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