JARVIS-FF

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


136.6	94.5	72.5	0.0	2.8	-0.0
94.5	268.9	132.8	-0.0	-12.6	0.0
72.5	132.8	144.4	0.0	-6.9	-0.0
0.0	-0.0	0.0	35.1	0.0	1.0
2.8	-12.6	-6.9	0.0	27.1	0.0
-0.0	0.0	-0.0	1.0	0.0	28.9

Bv: 127.7 GPa

Gv: 34.9 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
Al	2	0.021	Download cif file
Al	4	0.238	Download cif file
Al	4	0.211	Download cif file
Al	4	0.181	Download cif file
Al	4	0.273	Download cif file
Co	4	1.323	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
(3 1 0)	1.111	Download cif file
(1 0 0)	1.119	Download cif file
(1 0 1)	1.123	Download cif file
(1 2 2)	1.124	Download cif file
(1 2 -1)	1.127	Download cif file
(1 3 -1)	1.132	Download cif file
(2 1 2)	1.133	Download cif file
(2 1 -2)	1.135	Download cif file
(3 0 2)	1.138	Download cif file
(2 1 0)	1.138	Download cif file
(2 0 3)	1.144	Download cif file
(1 2 -2)	1.146	Download cif file
(0 1 2)	1.148	Download cif file
(2 2 1)	1.148	Download cif file
(3 1 -1)	1.156	Download cif file
(1 3 -3)	1.159	Download cif file
(3 1 3)	1.166	Download cif file
(1 2 1)	1.167	Download cif file
(1 2 3)	1.168	Download cif file
(1 1 1)	1.169	Download cif file
(3 1 -3)	1.175	Download cif file
(1 2 -3)	1.176	Download cif file
(0 1 3)	1.184	Download cif file
(2 2 3)	1.19	Download cif file
(2 0 1)	1.191	Download cif file
(1 0 3)	1.192	Download cif file
(2 3 -2)	1.193	Download cif file
(2 3 3)	1.194	Download cif file
(2 2 -3)	1.196	Download cif file
(3 0 1)	1.199	Download cif file
(1 1 3)	1.2	Download cif file
(3 1 2)	1.2	Download cif file
(3 2 -1)	1.202	Download cif file
(1 3 2)	1.202	Download cif file
(1 3 3)	1.207	Download cif file
(3 2 0)	1.208	Download cif file
(2 0 -3)	1.208	Download cif file
(1 0 -1)	1.209	Download cif file
(3 0 -1)	1.21	Download cif file
(1 1 2)	1.212	Download cif file
(1 0 -3)	1.212	Download cif file
(3 3 2)	1.212	Download cif file
(1 1 -2)	1.213	Download cif file
(3 1 -2)	1.216	Download cif file
(2 0 -1)	1.216	Download cif file
(3 2 -2)	1.217	Download cif file
(0 1 0)	1.218	Download cif file
(2 3 0)	1.22	Download cif file
(1 3 1)	1.22	Download cif file
(3 3 1)	1.22	Download cif file
(2 3 -3)	1.222	Download cif file
(2 3 1)	1.229	Download cif file
(3 2 2)	1.235	Download cif file
(3 2 -3)	1.236	Download cif file
(2 1 -1)	1.236	Download cif file
(1 0 2)	1.238	Download cif file
(1 3 -2)	1.239	Download cif file
(3 1 1)	1.239	Download cif file
(3 0 -2)	1.242	Download cif file
(0 2 1)	1.243	Download cif file
(1 0 -2)	1.245	Download cif file
(3 3 -1)	1.252	Download cif file
(2 1 3)	1.254	Download cif file
(3 2 3)	1.254	Download cif file
(0 3 2)	1.254	Download cif file
(2 3 2)	1.256	Download cif file
(0 2 3)	1.262	Download cif file
(0 3 1)	1.262	Download cif file
(3 3 -2)	1.263	Download cif file
(3 2 1)	1.267	Download cif file
(2 3 -1)	1.271	Download cif file
(1 2 0)	1.274	Download cif file
(0 0 1)	1.282	Download cif file
(1 1 -3)	1.291	Download cif file
(1 3 0)	1.298	Download cif file
(0 1 1)	1.302	Download cif file
(1 1 -1)	1.302	Download cif file
(1 1 0)	1.317	Download cif file
(2 1 -3)	1.352	Download cif file
(2 2 -1)	1.361	Download cif file
(2 1 1)	1.375	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
-113.450398047	Bu I
-113.101488468	Ag R
-89.0614497632	Au I
-78.198874329	Bg R
-0.2725564991	Bu I
-0.145005368	Au I
-0.0622892691	Bu I
28.3562788778	Bu I
64.8094142829	Au I
82.6857645942	Ag R
87.7406623184	Bg R
101.933066142	Ag R
108.48878048	Bg R
110.878577012	Ag R
114.271300087	Au I
118.766628647	Bu I
120.970195393	Au I
121.231798522	Bg R
125.649067588	Bu I
133.779642	Au I
137.79040249	Ag R
140.022535743	Bg R
153.332715358	Au I
158.457026631	Bg R
160.286381288	Ag R
161.967233497	Bu I
169.605645946	Bu I
170.874923311	Bg R
172.721687053	Au I
175.603005571	Au I
178.636049402	Ag R
189.206396853	Ag R
194.569839927	Bu I
195.1847267	Ag R
198.299048592	Au I
201.588425607	Bu I
203.193247956	Bg R
204.188733301	Au I
211.999365877	Au I
217.713258607	Bg R
223.37906715	Bu I
230.699478997	Bg R
232.691710875	Ag R
234.682512473	Bu I
242.894360489	Bu I
244.646765123	Bg R
244.665596643	Ag R
246.771486262	Au I
254.518422002	Bg R
264.02039227	Bu I
264.994981856	Au I
266.178671712	Ag R
277.345878007	Ag R
280.643263489	Bg R
283.363904779	Bu I
284.828590088	Bu I
290.175260595	Au I
291.409134682	Ag R
300.318012546	Au I
309.470721214	Bg R
313.869183746	Bg R
324.133224041	Au I
326.465312643	Ag R
328.726887485	Bu I
344.649601424	Au I
368.374746317	Bu I

All phonon mode at Gamma point (cm^-1)
-113.450398047
-113.101488468
-89.0614497632
-78.198874329
-0.272556499
-0.1450053682
-0.0622892692
28.3562788778
64.8094142829
82.6857645942
87.7406623184
101.933066142
108.48878048
110.878577012
114.271300087
118.766628647
120.970195393
121.231798522
125.649067588
133.779642
137.79040249
140.022535743
153.332715358
158.457026631
160.286381288
161.967233497
169.605645946
170.874923311
172.721687053
175.603005571
178.636049402
189.206396853
194.569839927
195.1847267
198.299048592
201.588425607
203.193247956
204.188733301
211.999365877
217.713258607
223.37906715
230.699478997
232.691710875
234.682512473
242.894360489
244.646765123
244.665596643
246.771486262
254.518422002
264.02039227
264.994981856
266.178671712
277.345878007
280.643263489
283.363904779
284.828590088
290.175260595
291.409134682
300.318012546
309.470721214
313.869183746
324.133224041
326.465312643
328.726887485
344.649601424
368.374746317

Structural formula: Al9Co2

Force-field: CoAl.eam.alloy

Space group : P2_1/c

JARVIS ID: JLMP-1116

Elastic tensor (GPa)

Vacancy-formation energy (eV)

Surface energy (J/m²)

Phonon

See also

Structural formula: Al9Co2

Force-field: CoAl.eam.alloy

Space group : P2_1/c

JARVIS ID: JLMP-1116

Elastic tensor (GPa)

Vacancy-formation energy (eV)

Surface energy (J/m2)

Phonon

See also

Surface energy (J/m²)