Eerenstein, W., Mathur, ND & Scott, JF Multiferroic and magnetoelectric materials. Nature 442:759765 (2006).
Fiebig, M., Lottermoser, T., Meier, D. & Trassin, M. The evolution of multiferroics. Nat. Rev. Mater. 1:16046 (2016).
Spaldin, NA, Cheong, SW & Ramesh, R. Multiferroics. past, present and future. Phys. Today 63:3843 (2010).
Jin, W. et al. Observation of ferroptitation order coupled with second-order nonlinear optical fields. Nat. Phys. 16:004246 (2019).
Xu, X., Yao, W., Xiao, D. & Heinz, TF Spin and pseudospins in layered transition metal dichalcogenides. Nat. Phys. 10:00343350 (2014).
Xiao, D., Chang, M.-C. & Niu, Q. Berry phase effects on electronic properties. Fr. Mod. Phys. 82:1959-2007 (2010).
Mak, KF, McGill, KL, Park, J. & McEuen, PL The Valley Hall effect in MoS2: transistors. Science 344:14891492 (2014).
Ju, L. et al. Topological valley transport at bilayer graphene domain walls. Nature 520650655 (2015).
Yin, J. et al. Tunable and giant-valley selective Hall effect in unfolded bilayer graphene. Science 37513981402 (2022).
Xiao, D., Yao, W. & Niu, Q. Valley-contrast physics in graphene. magnetic moment and topological transport. Phys. Rev. Lt. 99:236809 (2007).
Ju, L. et al. Tunable excitons in bilayer graphene. Science 358 year907910 (2017).
Tong, W.-Y., Gong, S.-J., Wan, X. & Duan, C.-G. Concepts of ferrovalley material and anomalous valley hall effect. Nat. commune 7:0013612 (2016).
Abouelkomsan, A., Bergholtz, EJ & Chatterjee, S. Multiferroicity and topology in twisted transition metal dichalcogenides. Preprint: https://arxiv.org/abs/2210.14918 (2022).
Wang, T., Vila, M., Zaletel, MP & Chatterjee, S. Electrical control of spin and valley in spin-orientation coupled graphene multilayers. Preprint: https://arxiv.org/abs/2303.04855 (2023).
Zhou, H. et al. Semi- and quaternary metals in rhombohedral trilayer graphene. Nature 598429433 (2021).
Zhou, H. et al. Isospin magnetism and spin-polarized superconductivity in Bernal bilayer graphene. Science 375774778 (2022).
de la Barrera, SC et al. Cascade of isospin phase transitions in Bernal-stacked bilayer graphene at zero magnetic field. Nat. Phys. 18:00771775 (2022).
Shi, Y. et al. Electronic phase separation in multilayer rhombohedral graphite. Nature 584210214 (2020).
Chen, G. et al. Tunable interconnected Chern insulator and ferromagnetism in a moiré superlattice. Nature 5795661 (2020).
Sharpe, AL et al. Emergent ferromagnetism near three-quarters complement twisted bilayer graphene. Science 365 years605608 (2019).
Serlin, M. et al. Intrinsically quantized anomalous Hall effect in a soot heterostructure. Science 367900903 (2020).
Polshyn, H. et al. Magnetic order electrical coupling in an orbital Chern insulator. Nature 5886670 (2020).
Chen, S. et al. Electrically Tunable Interrelated and Topological States in Twisted Monolayer Bilayer Graphene. Nat. Phys. 17:00374380 (2020).
Li, T. et al. Quantum Anomalous Hall Effect from Interlaced Moiré Ribbons. Nature 600641646 (2021).
Zhu, J., Su, JJ & MacDonald, AH Voltage-controlled magnetic reversal in orbital Chern insulators. Phys. Rev. Lt. 125:227702 (2020).
Yang, J. et al. Spectroscopic signatures of electron correlation in a trilayer graphene/hBN soot superlattice. Science 37512951299 (2022).
Min, H. & MacDonald, AH Electronic structure of multilayer graphene. Prog. look. Phys. Supply 176:227252 (2008).
Zhang, F., Jung, J., Fiete, GA, Niu, Q. & MacDonald, AH Spontaneous quantum Hall states in chirally stacked multilayer graphene systems. Phys. Rev. Lt. 106:156801 (2011).
Koshino, M. & McCann, E. Trigonal warping and Berrys phase N: ABC in multilayer graphene. Phys. Rev. B: 80:165409 (2009).
Weitz, RT, Allen, MT, Feldman, BE, Martin, J. & Yacoby, A. Broken symmetry states in doubly closed suspended bilayer graphene. Science 330812816 (2010).
Velasco, J. Jr. et al. Transport spectroscopy of symmetry-broken insulating states in bilayer graphene. Nat. Nanotechnology. 7:00156160 (2012).
Nagaosa, N., Sinova, J., Onoda, S., MacDonald, AH & Ong, NP Anomalous hall effect. Fr. Mod. Phys. 82:15391592 (2010).
Liu, E. et al. The giant anomalous Hall effect in a ferromagnetic kagome-lattice semimetal. Nat. Phys. 14:0011251131 (2018).
Matsukura, F., Tokura, Y. & Ohno, H. Control of magnetism by electric fields. Nat. Nanotechnology. 10:00209220 (2015).
Dong, Z., Davydova, M., Ogunnaike, O. & Levitov, L. Isospin- and momentum-polarized orders in bilayer graphene. Phys. Rev. B: 107:075108 (2021).
Szab, AL & Roy, B. Competitive ordering and cascade enhancement of degeneracy in doped Bernal bilayer graphene. Phys. Rev. B: 105:L201107 (2022).
Huang, C. et al. Spin and orbital metallic magnetism in rhombohedral trilayer graphene. Phys. Rev. B: 107:L121405 (2023).
Gnewuch, S. & Rodriguez, EE The fourth ferroal order. current status of ferrotoroid materials. J. Solid State Chem. 271:175190 (2019).
Fan, Y. et al. Magnetization transition with giant spinorbit torque in a magnetically doped topological insulator heterostructure. Nat. Mater. 13:00699704 (2014).
He, W.-Y., Goldhaber-Gordon, D. & Law, KT Giant orbital magnetoelectric effect and current-induced magnetization coupling in twisted bilayer graphene. Nat. commune 11:001650 (2020).
Li, H. et al. Electrode-free anodic oxidation nanolithography of low-dimensional materials. Nano Lett. 18:0080118015 (2018).
Han, T. et al. Interconnected insulator and Chern insulators in five-layer rhombohedral stacked graphene. Preprint: https://arxiv.org/abs/2305.03151 (2023).
Zhang, F., Sahu, B., Min, H. & MacDonald, AH Band structure of ABC-stacked graphene trilayers. Phys. Rev. B: 82:035409 (2010).
Tian, Y., Ye, L. & Jin, X. Proper scaling of the anomalous Hall effect. Phys. Rev. Lt. 103:087206 (2009).
Borders, WA et al. Integer factorization using stochastic magnetic tunnel junctions. Nature 573390393 (2019).
Mizrahi, A. et al. Neuron-like computation with populations of superparamagnetic basis functions. Nat. commune 9:001533 (2018).
Fei, Z. et al. Ferroelectric connection of two-dimensional metal. Nature 560336339 (2018).
de la Barrera, SC et al. Direct measurement of ferroelectric polarization in a tunable semiconductor. Nat. commune 12:005298 (2021).
Hunt, BM et al. Direct measurement of discrete valley and orbital quantum numbers in bilayer graphene. Nat. commune 8 o’clock948 (2017).
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