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Structural formula: Fe3P

Force-field: Fe-P.eam.fs

Space group : I-4

JARVIS ID: JLMP-1584

Download input files

Elastic tensor (GPa)

Elastic tensor for the conventional cell of the system were calculated with LAMMPS in.elastic script at 0 K [Source] . Similar script can be used for temperature dependent elastic constants and will be available here soon. WARNING! Please note that the starting lattice parameters of crystal structures were taken from density functional theory (DFT) and not from experiments. Generic minimization parameters were chosen for LAMMPS run rather than testing them for each individual case such as energy convergence criterion and so on. Hence, there are chances that the calculation gets trapped in a local energy minima. Please read carefully the assumptions taken during calculations in the in.elastic script and use the data at your own risk

256.9 104.8 140.6 -0.0 0.0 2.8
104.8 256.9 140.6 0.0 -0.0 -2.8
140.6 140.6 291.2 0.0 0.0 -0.0
-0.0 0.0 0.0 95.4 -0.0 -0.0
0.0 -0.0 0.0 -0.0 95.4 -0.0
2.8 -2.8 -0.0 -0.0 -0.0 78.9

Bv: 175.2 GPa

Gv: 81.9 GPa

Vacancy-formation energy (eV)

Vacancy formation energies were calculated by deleting the symmterically distinct atoms in the system [Source]. In the table, vacancy forming element, its multiplicity, and defect-formation energy are given. The reference element cohesive energies were calculated with the most stable structure for the element found on materials project database. Defect structures were constructed with the fully-relaxed bulk system as input. For defect-structures energetics calculations, constant volume ensemble was used. We impose the defect structures to be at least 1.5 nm large in all directions.

Element Mult. Value
Fe 8 3.077 Download cif file
Fe 8 3.535 Download cif file
Fe 8 4.188 Download cif file
P 8 1.993 Download cif file

Surface energy (J/m2)

Surface energies were calculated for symmterically distinct crystal surfaces . In the table, (hkl) indices and surface enegies are given. For surface-structure energetics, constant volume ensemble was used. We impose the slab thickness to be at least 2 nm and vaccum size of 2.5 nm. The maximum miller index is taken as 3.

Surface Value
(2 1 1) 1.502 Download cif file
(1 0 3) 1.503 Download cif file
(3 2 0) 1.536 Download cif file
(2 1 0) 1.541 Download cif file
(1 1 1) 1.544 Download cif file
(3 3 1) 1.548 Download cif file
(3 1 0) 1.549 Download cif file
(2 1 3) 1.559 Download cif file
(3 1 3) 1.584 Download cif file
(3 2 1) 1.586 Download cif file
(3 1 1) 1.59 Download cif file
(2 1 2) 1.599 Download cif file
(1 1 2) 1.599 Download cif file
(3 2 3) 1.601 Download cif file
(2 2 1) 1.602 Download cif file
(2 0 3) 1.609 Download cif file
(3 3 2) 1.616 Download cif file
(3 2 2) 1.625 Download cif file
(2 2 3) 1.628 Download cif file
(3 0 2) 1.636 Download cif file
(1 1 3) 1.637 Download cif file
(0 0 1) 1.638 Download cif file
(2 0 1) 1.649 Download cif file
(1 0 2) 1.653 Download cif file
(3 0 1) 1.672 Download cif file
(1 0 0) 1.703 Download cif file
(3 1 2) 1.729 Download cif file
(1 0 1) 1.834 Download cif file
(1 1 0) 1.873 Download cif file

Phonon

Phonons were obtained by making an interface of JARVIS-FF with Phonopy package at 0 K [Source] . For deformed-structures, constant volume ensemble was used. The deofrmed structures were taken of at least 1.5 nm size in all directions. The band-indices for phonon bandstructure was obtained with Pymatgen. The phonon representation were obtained with phonopy. "I" and "R" denotes infrared and Raman active modes respectively

Visualize Phonons here
Phonon mode (cm-1) Representation
-0.0003564305 None
120.635862709 None
131.990167375 A I+R
138.857817531 A I+R
141.138845723 None
145.958214142 A I+R
150.581826062 A I+R
157.587940009 A I+R
158.030172252 A I+R
162.350449758 None
163.491276145 A I+R
165.538644223 A I+R
171.868957726 None
178.78394277 None
184.323597907 A I+R
191.378140683 None
191.518121013 A I+R
197.969927115 A I+R
203.959951438 A I+R
215.381692217 None
215.722159489 A I+R
228.907959469 A I+R
233.393273757 A I+R
254.475746069 None
260.15850515 A I+R
261.732393545 A I+R
305.514005919 A I+R
316.918537772 A I+R
324.363698644 None
338.786232387 A I+R
349.831033706 None
356.098226938 A I+R
358.497208408 A I+R
371.063167011 None
400.850051131 A I+R
All phonon mode at Gamma point (cm-1)
-0.0003563321
-0.0001733957
-0.0001731876
93.8832635252
103.005298944
114.826622318
116.661547463
120.635862709
122.306342353
127.292368323
131.990167375
138.857817531
140.442743185
141.138845723
142.964893548
145.958214142
150.581826062
157.587940009
158.030172252
160.954155731
162.350449758
162.498356865
163.491276145
165.538644223
165.696952168
169.511402185
170.279080863
171.868957726
174.432073297
178.78394277
181.073141282
182.071189909
184.323597907
190.76547043
191.378140683
191.434239863
191.518121013
193.628908418
197.969927115
198.911317828
203.959951438
212.704081079
215.381692217
215.722159489
217.484672166
224.84763425
228.907959469
233.393273757
234.343030179
241.762233617
254.475746069
260.15850515
261.732393545
276.920704609
280.688963235
300.72419301
305.514005919
311.438273161
316.224100686
316.918537772
324.363698644
336.489078923
338.786232387
346.781022075
349.831033706
354.39317427
356.098226938
358.497208408
368.592650497
371.063167011
374.874706436
397.217207932
400.850051131

See also

Links to other databases or papers are provided below

None

mp-18708

Energy above hull from mp (eV): 0.0