Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); no imaginary modes; min freq = -0.07 THz

Phase diagram of Fe3CoB; eabovehull: 0.184467 eV/atom; predicted_stable: False

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

Phase diagram of Fe3CoB; eabovehull: 0.065276 eV/atom; predicted_stable: False

Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); no imaginary modes; min freq = -0.06 THz

Phase diagram of Fe3CoB; eabovehull: 0.184453 eV/atom; predicted_stable: False

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

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

Phase diagram of Ti(Fe5B)2; eabovehull: 0.132816 eV/atom; predicted_stable: False

Phase diagram of Ti(Fe5B)2; eabovehull: 0.132819 eV/atom; predicted_stable: False

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

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

Phase diagram of Ti(Fe5B)2; eabovehull: 0.132824 eV/atom; predicted_stable: False

Phase diagram of Ti3(Fe2B)4; eabovehull: 0.123232 eV/atom; predicted_stable: False

Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); imaginary modes detected; min freq = -2.68 THz

Phase diagram of MnFe3(NiBi)2; eabovehull: 1.008349 eV/atom; predicted_stable: False

Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); imaginary modes detected; min freq = -4.79 THz

Phase diagram of Fe6Co2N; eabovehull: 0.084074 eV/atom; predicted_stable: False

Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); no imaginary modes; min freq = -0.08 THz

Fe6Co2N1C0 (requested SG: P6/mmm #191, calculated SG: Cm #8, optimized: 321 steps, cell relaxed (isotropic))