Publications

[9] J.-Y. Zhao and Ya-Hui Zhang
Resonating-valence-bond superconductor from small Fermi surface in twisted bilayer graphene
arXiv:2510.26801 (2025)

[8] J.-Y. Zhao, S. Chatterjee, S. Sachdev, and Ya-Hui Zhang
Yamaji effect in models of underdoped cuprates
arXiv:2510.13943 (2025)

[7] H. Oh, H. Yang, and Ya-Hui Zhang
Doping a spin-one Mott insulator: possible application to bilayer nickelate
arXiv:2509.02673 (2025)

[6] L. Zhang, Ya-Hui Zhang, and X.-Y. Song
Charge-4e anyon superconductor from doping SU(4)₁ chiral spin liquid
arXiv:2508.12370 (2025)

[5] T. Wang and Ya-Hui Zhang
Anyon superfluid in trilayer quantum Hall systems
arXiv:2508.00058 (2025)

[4] Ya-Hui Zhang
Continuous transition from Fermi liquid to a fractional Chern insulator
arXiv:2507.22130 (2025)

[3] Ya-Hui Zhang
Holon metal, charge-density-wave and chiral superconductor from doping fractional Chern insulator and SU(3)₁ chiral spin liquid
arXiv:2506.00110 (2025)

[2] J.-Y. Zhao, B. Zhou, and Ya-Hui Zhang
Mixed valence Mott insulator and composite excitation in twisted bilayer graphene
arXiv:2507.00139 (2025)

[1] H. Oh, H. Yang, and Ya-Hui Zhang
High-temperature superconductivity from kinetic energy
arXiv:2411.07292 (2024)

[49] B. Zhou, H.-K. Jin, and Ya-Hui Zhang
Variational wavefunction for a Mott insulator at finite U using ancilla qubits
Physical Review B 112, 115159 (2025)

[48] J.-Y. Zhao, B. Zhou, and Ya-Hui Zhang
Topological Mott localization and pseudogap metal in twisted bilayer graphene
Physical Review B 112, 085107 (2025)

[47] B. Zhou and Ya-Hui Zhang
New classes of quantum anomalous Hall crystals in multilayer graphene
Physical Review Letters 135, 036501 (2025) PRL

[46] H.-K. Jin, H.-H. Tu, and Ya-Hui Zhang
Dirac and chiral spin liquids on spin-1/2 square-lattice Heisenberg antiferromagnet
Physical Review B 112, 035159 (2025)

[45] H. Yang and Ya-Hui Zhang
Topological incommensurate Fulde-Ferrell-Larkin-Ovchinnikov superconductor and Bogoliubov Fermi surface in rhombohedral tetralayer graphene
Physical Review B 112, L020506 (2025)

[44] H. Yang, H. Oh, and Ya-Hui Zhang
Strong pairing and symmetric pseudogap metal in a double Kondo lattice model: From a nickelate superconductor to a tetralayer optical lattice
Physical Review B 111, L241102 (2025)

[43] R. Su, D. Waters, B. Zhou, K. Watanabe, T. Taniguchi, Ya-Hui Zhang, M. Yankowitz, and J. Folk
Moiré-driven topological electronic crystals in twisted graphene
Nature (2025) Nature

[42] D. Waters, A. Okounkova, R. Su, B. Zhou, J. Yao, K. Watanabe, T. Taniguchi, et al.
Chern insulators at integer and fractional filling in moiré pentalayer graphene
Physical Review X 15, 011045 (2025) PRX

[41] H. Oh, B. Zhou, and Ya-Hui Zhang
Type-II t-J model in charge transfer regime in bilayer La₃Ni₂O₇ and trilayer La₄Ni₃O₁₀
Physical Review B 111, L020504 (2025)

[40] D. Waters, R. Su, E. Thompson, A. Okounkova, et al.
Topological flat bands in a family of multilayer graphene moiré lattices
Nature Communications 15, 1–9 (2024)

[39] B. Zhou, H. Yang, and Ya-Hui Zhang
Fractional quantum anomalous Hall effects in rhombohedral multilayer graphene in the moiréless limit
Phys. Rev. Lett. 133, 206504 (2024) PRL 2024 Collection

[38] Ya-Hui Zhang
Non-Abelian and Abelian descendants of a vortex spin liquid: Fractional quantum spin Hall effect in twisted MoTe₂
Physical Review B 110, 155102 (2024)

[37] H. Yang, H. Oh, and Ya-Hui Zhang
Strong pairing from a small Fermi surface beyond weak coupling: Application to La₃Ni₂O₇
Physical Review B 110, 104517 (2024) Editor's Suggestion

[36] X. Wu, H. Yang, and Ya-Hui Zhang
Deconfined Fermi liquid to Fermi liquid transition and superconducting instability
Physical Review B 110, 125122 (2024)

[35] Ya-Hui Zhang
Vortex Spin Liquid with Fractional Quantum Spin Hall Effect in Moiré Chern Bands
Physical Review Letters 133, 106502 (2024) PRL

[34] A. Nikolaenko and Ya-Hui Zhang
Numerical signatures of ultra-local criticality in a one-dimensional Kondo lattice model
SciPost Physics 17, 034 (2024)

[33] H. Yang and Ya-Hui Zhang
Exciton- and light-induced ferromagnetism from doping a moiré Mott insulator
Physical Review B 110, L041115 (2024)

[32] X.-Y. Song, Ya-Hui Zhang, and T. Senthil
Phase transitions out of quantum Hall states in moiré materials
Physical Review B 109, 085143 (2024)

[31] B. Zhou and Ya-Hui Zhang
Chiral and nodal superconductors in t-J model with valley contrasting flux on triangular moiré lattice
Physical Review B 108, 155111 (2023)

[30] H. Oh and Ya-Hui Zhang
Type-II t−J model and shared superexchange coupling from Hund's rule in superconducting La₃Ni₂O₇
Physical Review B 108, 174511 (2023)

[29] M. Christos, Z.-X. Luo, H. Shackleton, Ya-Hui Zhang, M. S. Scheurer, and S. Sachdev
A model of d-wave superconductivity, antiferromagnetism, and charge order on the square lattice
PNAS 120, e2302701120 (2023)

[28] Ya-Hui Zhang, Z. Zhu, and A. Vishwanath
XY* transition and extraordinary boundary criticality from fractional exciton condensation in quantum Hall bilayer
Phys. Rev. X 13, 031023 (2023) PRX

[27] Z. Dong and Ya-Hui Zhang
Excitonic Chern insulator and kinetic ferromagnetism in a MoTe₂/WSe₂ moiré bilayer
Physical Review B 107, L081101 (2023)

[26] X.-Y. Song and Ya-Hui Zhang
Deconfined criticalities and dualities between chiral spin liquid, topological superconductor and charge density wave Chern insulator
SciPost Physics 15.5, 215 (2023)

[25] Ya-Hui Zhang
Doping a Mott insulator with excitons in a moiré bilayer: Fractional superfluid, neutral Fermi surface, and Mott transition
Physical Review B 106, 195120 (2022)

[24] Ya-Hui Zhang and A. Vishwanath
Pair-density-wave superconductor from doping Haldane chain and rung-singlet ladder
Physical Review B 106, 045103 (2022)

[23] X.-Y. Song, Ya-Hui Zhang, and A. Vishwanath
Doping a moiré Mott insulator: A model study of twisted cuprates
Physical Review B 105, L201102 (2022)

[22] S. Xie, B. D. Faeth, Y. Tang, et al.
Strong interlayer interactions in bilayer and trilayer moiré superlattices
Science Advances 8, eabk1911 (2022) Science Advances

[21] J. Yang, G. Chen, T. Han, Q. Zhang, Ya-Hui Zhang, et al.
Spectroscopy signatures of electron correlations in a trilayer graphene/hBN moiré superlattice
Science 375, 1295–1299 (2022) Science

[20] E. Mascot, A. Nikolaenko, M. Tikhanovskaya, Ya-Hui Zhang, D. K. Morr, and S. Sachdev
Electronic spectra with paramagnon fractionalization in the single-band Hubbard model
Physical Review B 105, 075146 (2022)

[19] J.-X. Lin, Ya-Hui Zhang, E. Morissette, Z. Wang, et al.
Spin-orbit–driven ferromagnetism at half moiré filling in magic-angle twisted bilayer graphene
Science 375, 437–441 (2022) Science

[18] Ya-Hui Zhang, D. N. Sheng, and A. Vishwanath
SU(4) chiral spin liquid, exciton supersolid, and electric detection in moiré bilayers
Physical Review Letters 127, 247701 (2021) PRL

[17] M. He, Ya-Hui Zhang, Y. Li, et al.
Competing correlated states and abundant orbital magnetism in twisted monolayer-bilayer graphene
Nature Communications 12, 4727 (2021)

[16] A. Nikolaenko, M. Tikhanovskaya, S. Sachdev, and Ya-Hui Zhang
Small to large Fermi surface transition in a single-band model using randomly coupled ancillas
Physical Review B 103, 235138 (2021)

[15] X.-Y. Song, A. Vishwanath, and Ya-Hui Zhang
Doping the chiral spin liquid—topological superconductor or chiral metal?
Physical Review B 103, 165138 (2021)

[14] Ya-Hui Zhang and Z. Zhu
Fractional Fermi liquid in a generalized t-J model
Physical Review B 103, 115101 (2021)

[13] Ya-Hui Zhang and S. Sachdev
Deconfined criticality and ghost Fermi surfaces at the onset of antiferromagnetism in a metal
Phys. Rev. B 102, 155124 (2020)

[12] Ya-Hui Zhang and S. Sachdev
From the pseudogap metal to the Fermi liquid using ancilla qubits
Physical Review Research 2, 023172 (2020) Editor's Suggestion

[11] C. Repellin, Z. Dong, Ya-Hui Zhang, and T. Senthil
Ferromagnetism in narrow bands of moiré superlattices
Physical Review Letters 124, 187601 (2020) PRL

[10] Ya-Hui Zhang and A. Vishwanath
Type-II t-J model in superconducting nickelate Nd_xSr_1-xNiO₂
Physical Review Research 2, 023112 (2020)

[9] S. Chen, M. He, Ya-Hui Zhang, et al.
Electrically tunable correlated and topological states in twisted monolayer-bilayer graphene
Nature Physics (2020) Nature Physics

[8] Ya-Hui Zhang and T. Senthil
Quantum Hall spin liquids and their possible realization in moiré systems
Phys. Rev. B 102, 115127 (2020)

[7] G. Chen, A. L. Sharpe, E. J. Fox, Ya-Hui Zhang, et al.
Tunable correlated Chern insulator and ferromagnetism in a moiré superlattice
Nature 579, 56–61 (2020) Nature

[6] Ya-Hui Zhang and D. Mao
Spin liquids and pseudogap metals in the SU(4) Hubbard model in a moiré superlattice
Physical Review B 101, 035122 (2020)

[5] Ya-Hui Zhang, D. Mao, and T. Senthil
Twisted bilayer graphene aligned with hexagonal boron nitride: anomalous Hall effect and a lattice model
Physical Review Research 1, 033126 (2019)

[4] Ya-Hui Zhang, H. C. Po, and T. Senthil
Landau level degeneracy in twisted bilayer graphene: Role of symmetry breaking
Physical Review B 100, 125104 (2019)

[3] Ya-Hui Zhang and T. Senthil
Bridging Hubbard model physics and quantum Hall physics in trilayer moiré superlattice
Physical Review B 99, 205150 (2019) Editor's Suggestion

[2] Ya-Hui Zhang, D. Mao, Y. Cao, P. Jarillo-Herrero, and T. Senthil
Nearly flat Chern bands in moiré superlattices
Physical Review B 99, 075127 (2019) Editor's Suggestion

[1] Z. Dai, Ya-Hui Zhang, T. Senthil, and P. A. Lee
Pair-density waves, charge-density waves, and vortices in high-T_c cuprates
Physical Review B 97, 174511 (2018) Editor's Suggestion

Preprints

Published