@will

Magnet candidate: Fe10Co2WNC

Phase diagram of Mn2PtAu; eabovehull: 2.381975 eV/atom; predicted_stable: False

Cell + Ionic relaxation with Orb v3; 0.03 eV/Å threshold; final energy = -19.4543 eV; energy change = -0.6799 eV; symmetry: R3m → P1

Magnet candidate: Mn4Pt2Au_L21

Phase diagram of Fe2ReIr; eabovehull: 0.461125 eV/atom; predicted_stable: False

Cell + Ionic relaxation with Orb v3; 0.03 eV/Å threshold; final energy = -36.0008 eV; energy change = -14.4720 eV; symmetry: P1 → P1

Magnet candidate: Fe8ReIr_orthorhombic

Phase diagram of Co2IrPt; eabovehull: 0.883376 eV/atom; predicted_stable: False

Cell + Ionic relaxation with Orb v3; 0.03 eV/Å threshold; final energy = -25.0646 eV; energy change = -7.1577 eV; symmetry: P3m1 → P3m1

Magnet candidate: Co4Ir2Pt_hexagonal

Phase diagram of Fe2OsW; eabovehull: 6.567754 eV/atom; predicted_stable: False

Cell + Ionic relaxation with Orb v3; 0.03 eV/Å threshold; final energy = -14.9122 eV; energy change = 4.5514 eV; symmetry: Pmm2 → Pmm2

Magnet candidate: Fe6W2Os_tetragonal

Phase diagram of SmFe2CoCuNiN; eabovehull: 0.435419 eV/atom; predicted_stable: False

Cell + Ionic relaxation with Orb v3; 0.03 eV/Å threshold; final energy = -47.1000 eV; energy change = -18.7020 eV; symmetry: P1 → P1

Magnet candidate: SmFeCoNiCuN_ThMn12

Phase diagram of MnFe2CoNiW; eabovehull: 0.093551 eV/atom; predicted_stable: False

Cell + Ionic relaxation with Orb v3; 0.03 eV/Å threshold; final energy = -51.6525 eV; energy change = -21.4762 eV; symmetry: P1 → Amm2

Magnet candidate: Fe4CoNiMnW_ThMn12

Phase diagram of MnCrFeCoNi; eabovehull: 0.077759 eV/atom; predicted_stable: False