Publications

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Preprints

  1. A Fermi Surface Driven Spiral Spin Liquid
    P. M. Neves, C. I. J. Ip, T. Kurumaji, S. Fang, J. A. M. Paddison, L. M. DeBeer-Schmitt, et al., arXiv:2603.03434 (2026).

Journal articles

  1. Cascade of Spin Moiré Superlattices with In-Plane Field in Triangular Lattice Semimetal EuAg4Sb2
    P. M. Neves, T. Kurumaji, J. P. Wakefield, C. I. J. Ip, R. Cubitt, S. Hayami, J. S. White, et al., ACS Nano 20, 14029–14038 (2026).
  2. High-field triplet superconductivity in a transition metal dichalcogenide superlattice
    S. Y. F. Zhao, P. M. Neves, J. P. Wakefield, S. Fang, A. Chen, J. C. Palmstrom, et al., Nature Physics 22, 382–388 (2026).
  3. A General Approach to Solving Spin Moiré Superstructures
    P. M. Neves*, T. Kurumaji, J. P. Wakefield, A. Hiess, P. Steffens, N. Qureshi, et al., Accepted, Physical Review X (2026).
  4. Electronic commensuration of a spin moiré superlattice in a layered magnetic semimetal
    T. Kurumaji, N. Paul, S. Fang, P. M. Neves, M. Kang, J. S. White, T. Nakajima, et al., Science Advances 11, eadu6686 (2025).
  5. Hopping frustration-induced flat band and strange metallicity in a kagome metal
    L. Ye, S. Fang, M. Kang, J. Kaufmann, Y. Lee, C. John, P. M. Neves, S. Y. F. Zhao, et al., Nature Physics 20, 610–614 (2024).
  6. Measurements of the quantum geometric tensor in solids
    M. Kang, S. Kim, Y. Qian, P. M. Neves, L. Ye, J. Jung, D. Puntel, F. Mazzola, et al., Nature Physics 21, 110–117 (2024).
  7. Crystal net catalog of model flat band materials
    P. M. Neves, J. P. Wakefield, S. Fang, H. Nguyen, L. Ye, J. G. Checkelsky, npj Computational Materials 10, 39 (2024).
  8. GRASP Integrated 3D Plotter: GRIP
    P. M. Neves, J. S. White, J. Appl. Crystallogr. 57, 2030–2042 (2024).
  9. Photoinduced dynamics of flat bands in the kagome metal CoSn
    D. Puntel, W. Bronsch, M. Tuniz, M. Kang, P. M. Neves, S. Fang, E. Kaxiras, et al., Phys. Rev. B 109, L081104 (2024).
  10. Three-dimensional flat bands in pyrochlore metal CaNi2
    J. P. Wakefield*, M. Kang*, P. M. Neves*, D. Oh*, S. Fang, R. McTigue, et al., Nature 623, 301–306 (2023).
  11. Symmetry of magnetic correlations in spin-triplet superconductor UTe2
    N. P. Butch, S. Ran, S. R. Saha, P. M. Neves, M. P. Zic, J. Paglione, S. Gladchenko, et al., npj Quantum Materials 7, 39 (2022).
  12. Topologically-Driven Linear Magnetoresistance in Helimagnetic FeP
    D. J. Campbell, J. Collini, J. Slawinska, C. Autieri, L. Wang, K. Wang, B. Wilfong, et al., npj Quantum Materials 6, 1 (2021).
  13. Effect of chemical substitution on the skyrmion phase in Cu2OSeO3
    P. M. Neves, D. A. Gilbert, S. Ran, I. L. Liu, S. Saha, J. Collini, M. Bleuel, et al., Phys. Rev. B 102, 134410 (2020).
  14. Extreme magnetic field-boosted superconductivity
    S. Ran, I. L. Liu, Y. S. Eo, D. J. Campbell, P. M. Neves, W. T. Fuhrman, S. R. Saha, et al., Nature Physics 15, 1250–1254 (2019).
  15. Precipitating ordered skyrmion lattices from helical spaghetti and granular powders
    D. A. Gilbert, A. J. Grutter, P. M. Neves, G. J. Shu, G. Zimanyi, B. B. Maranville, et al., Phys. Rev. Materials 3, 014408 (2019).
  16. Mechanical control of crystal symmetry and superconductivity in Weyl semimetal MoTe2
    C. Heikes, I. L. Liu, T. Metz, C. Eckberg, P. M. Neves, Y. Wu, L. Hung, P. Piccoli, et al., Phys. Rev. Materials 2, 074202 (2018).

Other

  1. Four-Point AC Resistance Measurements
    P. M. Neves, Stanford Research Systems Technique Paper (2024).
  2. MANiACS: A Multi-Application Neutron in-situ AC Susceptometer
    P. M. Neves, J. Leão, N. Butch, Neutron News 30, 17–18 (2019).

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