element(s):
['Fe']
AFLOW prototype label:
A_tP1_123_a
Parameter names:
['a', 'c/a']
model type (only 'standard' supported at this time):
standard
number of parameter sets:
1
Parameter values for parameter set 0:
['2.2256', '1.0359004']
model name:
EAM_Magnetic2GQuintic_ChiesaDerletDudarev_2011_Fe__MO_140444321607_002
==== Building ASE atoms object with: ====
representative atom symbols = ['Fe']
representative atom coordinates = [[0 0 0]]
spacegroup = 123
cell = [[2.2256, 0, 0], [0, 2.2256, 0], [0, 0, 2.3055]]
=========================================
Step Time Energy fmax
BFGS: 0 10:52:10 -12.922275 1.509936
BFGS: 1 10:52:10 -12.946036 0.447393
BFGS: 2 10:52:10 -12.947631 0.111952
BFGS: 3 10:52:10 -12.947726 0.005476
BFGS: 4 10:52:10 -12.947726 0.000122
BFGS: 5 10:52:10 -12.947726 0.000010
BFGS: 6 10:52:10 -12.947726 0.000000
BFGS: 7 10:52:10 -12.947726 0.000000
Minimization converged after 7 steps.
Maximum force component: 0.0 eV/Angstrom
Maximum stress component: 5.072388904773046e-10 eV/Angstrom^3
==== Minimized structure obtained from ASE ====
symbols = ['Fe']
basis = [[0. 0. 0.]]
cellpar = Cell([[2.238980560499794, -3.771065098628687e-35, 5.1604167010648446e-33], [-3.100450519204338e-35, 2.2389805604997934, -4.45253898003971e-21], [6.935226668531385e-34, -4.4530076519521405e-21, 2.2389805602534736]])
forces = [[0. 0. 0.]]
stress = [ 7.23176339e-11 7.23176339e-11 -5.07238890e-10 7.66178649e-26
-3.00455202e-39 5.29296569e-55]
energy per atom = -12.947725950501546
===============================================
Parameter sets [0] relaxed to duplicate structures, attempting to write only one of them.
Prototype label changed during relaxation: test template prototype is A_tP1_123_a, while relaxed is A_cP1_221_a. Skipping parameter set 0.
No parameter sets in this group successfully added a property instance. Skipping this group.
Potential info: proved magnetic potential with 5th order knot functions
Potential info: proved magnetic potential with 5th order knot functions