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Relaxed with Orb v3; 0.03 eV/Å threshold; final energy = -60.9531 eV; energy change = -0.0143 eV; symmetry: P4/mmm → P4/mmm

Fe5SiB2 (P4/mmm) 4

Fe5SiB2 (space group: P4/mmm #123, crystal system: tetragonal, point group: 4/mmm)

Fe8N phase diagram 2

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Phase diagram of Fe8N; eabovehull: 1.507819 eV/atom; predicted_stable: False

Fe8N (P6_3/mmc) - relaxed

Relaxed with Orb v3; 0.03 eV/Å threshold; final energy = -125.2035 eV; energy change = -0.2049 eV; symmetry: P63/mmc → P63/mmc

Fe8N (P6_3/mmc)

Fe16N2 (space group: P6_3/mmc #194, crystal system: hexagonal, point group: 6/mmm) (missed expected composition: Fe16N2)

Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); no imaginary modes; min freq = -0.00 THz

gen_9-FeCoPt-relaxed.cif

FeCoPt (P3m1) 1 - relaxed - phonon dispersion

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Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); imaginary modes detected; min freq = -0.84 THz

FeCoNiPt-(Pmmm)-relaxed.cif 1 - phonon dispersion

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Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); no imaginary modes; min freq = 0.00 THz

FeCoNiPt-(Pmmm)-relaxed.cif 1

AlGaFe2Ni phase diagram

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Phase diagram of AlGaFe2Ni; eabovehull: 0.361111 eV/atom; predicted_stable: False

AlGaFe2Ni (P4mm) - relaxed

Relaxed with Orb v3; 0.03 eV/Å threshold; final energy = 197.4775 eV; energy change = -61702.1280 eV; symmetry: P4mm → P1

AlGaFe2Ni (P4mm)

Fe2NiGaAl (space group: P4mm #99, crystal system: tetragonal, point group: 4mm) (missed expected composition: Fe2NiGaAl)

Mn2AlFe phase diagram

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Phase diagram of Mn2AlFe; eabovehull: 0.022079 eV/atom; predicted_stable: True

Mn2AlFe (Pmm2) - relaxed

Relaxed with Orb v3; 0.03 eV/Å threshold; final energy = -30.9734 eV; energy change = -0.0075 eV; symmetry: Pmm2 → Pmm2

Mn2AlFe (Pmm2)

Mn2FeAl (space group: Pmm2 #25, crystal system: orthorhombic, point group: mm2) (missed expected composition: Mn2FeAl)