Science Advances

Supplementary Materials

This PDF file includes:

  • Section S1. Tables for spinful electrons
  • Section S2. feSMs in stoichiometric compounds
  • Section S3. Notations
  • Section S4. Compatibility relations
  • Section S5. Details of AIs
  • Section S6. Details of T~b
  • Section S7. Magnetic layer groups
  • Section S8. Tight-binding model for reSM
  • Section S9. Tables for spinless electrons
  • Table S1. Characterization of MSGs in the triclinic family for spinful electrons.
  • Table S2. Characterization of MSGs in the monoclinic family for spinful electrons.
  • Table S3. Characterization of MSGs in the orthorhombic family for spinful electrons.
  • Table S4. Characterization of MSGs in the tetragonal family for spinful electrons.
  • Table S5. Characterization of MSGs in the hexagonal family for spinful electrons.
  • Table S6. Characterization of MSGs in the cubic family for spinful electrons.
  • Table S7. Characterization of the projections of MSGs that correspond to MLG, assuming spinful electrons.
  • Table S8. MSGs for which spinful electrons exhibit exceptional filling patterns.
  • Table S9. MSGs that can host feSMs with nodal-point Fermi surfaces pinned at high-symmetry momenta.
  • Table S10. MSGs that can host feSMs with movable nodal Fermi surfaces.
  • Table S11. MSGs that can host filling-enforced metals.
  • Table S12. Effect of turning on spin-orbit coupling on the fermiology of TR-symmetric filling-enforced (semi)metals.
  • Table S13. Characterization of MSGs in the triclinic family for spinless electrons.
  • Table S14. Characterization of MSGs in the monoclinic family for spinless electrons.
  • Table S15. Characterization of MSGs in the orthorhombic family for spinless electrons.
  • Table S16. Characterization of MSGs in the tetragonal family for spinless electrons.
  • Table S17. Characterization of MSGs in the hexagonal family for spinless electrons.
  • Table S18. Characterization of MSGs in the cubic family for spinless electrons.
  • Table S19. MSGs for which spinless electrons exhibit exceptional filling patterns.

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