Physical Review X (Aug 2024)

Anomalous Landau Level Gaps Near Magnetic Transitions in Monolayer WSe_{2}

  • Benjamin A. Foutty,
  • Vladimir Calvera,
  • Zhaoyu Han,
  • Carlos R. Kometter,
  • Song Liu,
  • Kenji Watanabe,
  • Takashi Taniguchi,
  • James C. Hone,
  • Steven A. Kivelson,
  • Benjamin E. Feldman

DOI
https://doi.org/10.1103/PhysRevX.14.031018
Journal volume & issue
Vol. 14, no. 3
p. 031018

Abstract

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First-order phase transitions produce abrupt changes to the character of both ground and excited electronic states. Here we conduct electronic compressibility measurements to map the spin phase diagram and Landau level (LL) energies of monolayer WSe_{2} in a magnetic field. We resolve a sequence of first-order phase transitions between completely spin-polarized LLs and states with LLs of both spins. Unexpectedly, the LL gaps are roughly constant over a wide range of magnetic fields below the transitions, which we show reflects spin-polarized ground states with opposite spin excitations. These transitions also extend into compressible regimes, with a sawtooth boundary between full and partial spin polarization. We link these observations to the important influence of LL filling on the exchange energy beyond a smooth density-dependent contribution. Our results show that WSe_{2} realizes a unique hierarchy of energy scales where such effects induce reentrant magnetic phase transitions tuned by density and magnetic field.