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Structural formula: Ta

Force-field: newPP1_47-setfl.eam.alloy

Space group : P2/m

JARVIS ID: JLMP-1312

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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

307.4 177.3 175.0 -0.0 -0.2 0.0
177.3 380.8 177.5 -0.0 0.1 0.0
175.0 177.5 326.1 0.0 0.4 -0.0
-0.0 -0.0 0.0 56.4 -0.0 -0.0
-0.2 0.1 0.4 -0.0 81.8 -0.0
0.0 0.0 -0.0 -0.0 -0.0 61.1

Bv: 230.4 GPa

Gv: 72.2 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
Ta 1 2.505 Download cif file
Ta 1 2.515 Download cif file
Ta 2 2.393 Download cif file
Ta 2 2.128 Download cif file
Ta 2 2.134 Download cif file
Ta 2 2.402 Download cif file
Ta 2 -5.742 Download cif file
Ta 2 -4.966 Download cif file
Ta 2 -4.764 Download cif file
Ta 2 -6.594 Download cif file
Ta 2 2.309 Download cif file
Ta 2 2.314 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) 1.328 Download cif file
(0 1 0) 1.404 Download cif file
(2 0 1) 1.49 Download cif file
(3 1 1) 1.496 Download cif file
(0 3 1) 1.563 Download cif file
(0 2 1) 1.594 Download cif file
(1 2 1) 1.596 Download cif file
(1 0 2) 1.599 Download cif file
(2 1 0) 1.6 Download cif file
(0 0 1) 1.603 Download cif file
(1 3 1) 1.613 Download cif file
(1 3 0) 1.618 Download cif file
(2 0 3) 1.621 Download cif file
(1 0 0) 1.622 Download cif file
(1 2 2) 1.623 Download cif file
(3 2 0) 1.641 Download cif file
(3 1 3) 1.643 Download cif file
(2 1 3) 1.645 Download cif file
(3 1 2) 1.649 Download cif file
(1 3 2) 1.651 Download cif file
(3 3 1) 1.664 Download cif file
(0 3 2) 1.677 Download cif file
(2 2 1) 1.679 Download cif file
(2 1 1) 1.679 Download cif file
(1 2 0) 1.683 Download cif file
(2 3 0) 1.693 Download cif file
(3 0 2) 1.695 Download cif file
(1 3 3) 1.711 Download cif file
(2 3 1) 1.714 Download cif file
(1 0 3) 1.729 Download cif file
(0 1 2) 1.736 Download cif file
(2 3 2) 1.737 Download cif file
(0 2 3) 1.737 Download cif file
(1 1 3) 1.745 Download cif file
(3 2 1) 1.758 Download cif file
(2 3 3) 1.758 Download cif file
(1 0 1) 1.766 Download cif file
(1 1 1) 1.771 Download cif file
(0 1 1) 1.776 Download cif file
(1 2 3) 1.787 Download cif file
(1 1 0) 1.789 Download cif file
(3 3 2) 1.811 Download cif file
(1 1 2) 1.822 Download cif file
(2 1 2) 1.841 Download cif file
(3 2 3) 1.852 Download cif file
(0 1 3) 1.877 Download cif file
(3 0 1) 1.883 Download cif file
(3 2 2) 1.902 Download cif file
(2 2 3) 1.916 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
-0.017160409 A' I+R
-0.0132389976 A'' I+R
-0.0088086906 A' I+R
51.9657678984 A'' I+R
55.4068392102 A'' I+R
62.3291630469 A' I+R
64.305184005 A' I+R
65.1765339878 A' I+R
73.0203131715 A' I+R
74.8610925139 A'' I+R
76.32405999 A'' I+R
77.6189596773 A' I+R
78.5201145293 A' I+R
79.1874571019 A'' I+R
84.0012499871 A' I+R
84.7601582155 A' I+R
85.7723251223 A'' I+R
85.8753981047 A' I+R
86.4234784121 A'' I+R
90.8944958902 A' I+R
92.9591743233 A'' I+R
96.2580040057 A' I+R
97.5999820557 A' I+R
99.4614336091 A' I+R
104.916676785 A' I+R
106.57052301 A'' I+R
107.603453832 A'' I+R
113.110514633 A' I+R
114.174532502 A' I+R
114.895240994 A' I+R
118.836454459 A' I+R
119.02429633 A' I+R
119.958533555 A' I+R
120.126774221 A' I+R
123.03629966 A' I+R
130.198185089 A' I+R
130.208090882 A' I+R
132.274252835 A' I+R
133.462431043 A' I+R
137.127338605 A'' I+R
139.556558635 A'' I+R
142.753992416 A' I+R
143.372196216 A' I+R
144.299799111 A'' I+R
144.954247324 A' I+R
145.560099862 A' I+R
148.490391313 A'' I+R
149.377540023 A' I+R
149.538486423 A' I+R
149.708566952 A' I+R
157.353261847 A' I+R
159.674186082 A'' I+R
159.810694882 A'' I+R
160.035285522 A'' I+R
167.804570156 A' I+R
168.223276094 A'' I+R
168.887938023 A' I+R
170.24050974 A' I+R
170.269731274 A' I+R
171.524492011 A'' I+R
176.930822364 A' I+R
177.307969582 A' I+R
177.47225983 A'' I+R
179.013627066 A' I+R
179.691876335 A' I+R
182.988691077 A'' I+R
All phonon mode at Gamma point (cm-1)
-0.0171604094
-0.0132389978
-0.0088086905
51.9657678984
55.4068392102
62.3291630469
64.305184005
65.1765339878
73.0203131715
74.8610925139
76.32405999
77.6189596773
78.5201145293
79.1874571019
84.0012499871
84.7601582155
85.7723251223
85.8753981047
86.4234784121
90.8944958902
92.9591743233
96.2580040057
97.5999820557
99.4614336091
104.916676785
106.57052301
107.603453832
113.110514633
114.174532502
114.895240994
118.836454459
119.02429633
119.958533555
120.126774221
123.03629966
130.198185089
130.208090882
132.274252835
133.462431043
137.127338605
139.556558635
142.753992416
143.372196216
144.299799111
144.954247324
145.560099862
148.490391313
149.377540023
149.538486423
149.708566952
157.353261847
159.674186082
159.810694882
160.035285522
167.804570156
168.223276094
168.887938023
170.24050974
170.269731274
171.524492011
176.930822364
177.307969582
177.47225983
179.013627066
179.691876335
182.988691077

See also

Links to other databases or papers are provided below

None

mp-697196

Energy above hull from mp (eV): 1.22414385318