Follow
W. M. H. Natori
Title
Cited by
Cited by
Year
Chiral spin-orbital liquids with nodal lines
WMH Natori, EC Andrade, E Miranda, RG Pereira
Physical Review Letters 117 (1), 017204, 2016
322016
SU (4) Heisenberg model on the honeycomb lattice with exchange-frustrated perturbations: implications for twistronics and Mott insulators
WMH Natori, R Nutakki, RG Pereira, EC Andrade
Physical Review B 100 (20), 205131, 2019
292019
Local Probes for Charge-Neutral Edge States in Two-Dimensional Quantum Magnets
J Feldmeier, WMH Natori, M Knap, J Knolle
Physical Review B 102 (13), 134423, 2020
282020
SU (4)-symmetric spin-orbital liquids on the hyperhoneycomb lattice
WMH Natori, EC Andrade, RG Pereira
Physical Review B 98 (19), 195113, 2018
232018
Dynamics of a quantum spin liquid
WMH Natori, M Daghofer, RG Pereira
Physical Review B 96 (12), 125109, 2017
182017
Dynamics of a two-dimensional quantum spin-orbital liquid: spectroscopic signatures of fermionic magnons
WMH Natori, J Knolle
Physical Review Letters 125 (6), 067201, 2020
92020
Orbital Magnetic Field Effects in Mott Insulators with Strong Spin-Orbit Coupling
WMH Natori, R Moessner, J Knolle
Physical Review B 100 (14), 144403, 2019
62019
Optical phonons coupled to a Kitaev spin liquid
A Metavitsiadis, W Natori, J Knolle, W Brenig
Physical Review B 105 (16), 165151, 2022
52022
Unveiling the S= 3/2 Kitaev Honeycomb Spin Liquids
HK Jin, WMH Natori, F Pollmann, J Knolle
Nature Communications 13, 3813, 2022
22022
An exact chiral amorphous spin liquid
G Cassella, P d'Ornellas, T Hodson, WMH Natori, J Knolle
arXiv preprint arXiv:2208.08246, 2022
2022
Twisting the Dirac cones of the SU (4) spin-orbital liquid on the honeycomb lattice
HK Jin, WMH Natori, J Knolle
arXiv preprint arXiv:2207.02239, 2022
2022
S= 3/2 Chiral Kitaev Spin Liquid induced by out-of-plane single ion anisotropy
W Natori
Bulletin of the American Physical Society, 2022
2022
j=3/2 Quantum Spin-Orbital Liquids
W Natori
Universidade de São Paulo, 2018
2018
The system can't perform the operation now. Try again later.
Articles 1–13