Title
A single sentence description.
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MEAM potential for Ni developed by Asadi et al. (2015) v001 |
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Description
A short description of the Model describing its key features including for example: type of model (pair potential, 3-body potential, EAM, etc.), modeled species (Ac, Ag, ..., Zr), intended purpose, origin, and so on.
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The two-phase solid-liquid coexisting structures of Ni, Cu, and Al are studied by molecular dynamics (MD) simulations using the second nearest-neighbor (2NN) modified-embedded atom method (MEAM) potential. For this purpose, the existing 2NN-MEAM parameters for Ni and Cu were modified to make them suitable for the MD simulations of the problems related to the two-phase solid-liquid coexistence of these elements. Using these potentials, we compare calculated low-temperature properties of Ni, Cu, and Al, such as elastic constants, structural energy differences, vacancy formation energy, stacking fault energies, surface energies, specific heat, and thermal expansion coefficient with experimental data. The solid-liquid coexistence approach is utilized to accurately calculate the melting points of Ni, Cu, and Al. The MD calculations of the expansion in melting, latent heat, and the liquid structure factor are also compared with experimental data. In addition, the solid-liquid interface free energy and surface anisotropy of the elements are determined from the interface fluctuations, and the predictions are compared to the experimental and computational data in the literature. |
Species
The supported atomic species.
| Ni |
Disclaimer
A statement of applicability provided by the contributor, informing users of the intended use of this KIM Item.
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None |
Content Origin | NIST IPRP (https://www.ctcms.nist.gov/potentials/Ni.html) |
Content Other Locations | https://openkim.org/id/Sim_LAMMPS_MEAM_AsadiZaeemNouranian_2015_Ni__SM_078420412697_000 |
Contributor |
Yaser Afshar |
Maintainer |
Yaser Afshar |
Developer |
Ebrahim Asadi Mohsen Asle Zaeem Sasan Nouranian Michael I. Baskes |
Published on KIM | 2021 |
How to Cite | Click here to download this citation in BibTeX format. |
Funding | Not available |
Short KIM ID
The unique KIM identifier code.
| MO_700541006254_001 |
Extended KIM ID
The long form of the KIM ID including a human readable prefix (100 characters max), two underscores, and the Short KIM ID. Extended KIM IDs can only contain alpha-numeric characters (letters and digits) and underscores and must begin with a letter.
| MEAM_LAMMPS_AsadiZaeemNouranian_2015_Ni__MO_700541006254_001 |
DOI |
10.25950/2be3b822 https://doi.org/10.25950/2be3b822 https://commons.datacite.org/doi.org/10.25950/2be3b822 |
KIM Item Type
Specifies whether this is a Portable Model (software implementation of an interatomic model); Portable Model with parameter file (parameter file to be read in by a Model Driver); Model Driver (software implementation of an interatomic model that reads in parameters).
| Portable Model using Model Driver MEAM_LAMMPS__MD_249792265679_001 |
Driver | MEAM_LAMMPS__MD_249792265679_001 |
KIM API Version | 2.2 |
Potential Type | meam |
Previous Version | MEAM_LAMMPS_AsadiZaeemNouranian_2015_Ni__MO_700541006254_000 |
Grade | Name | Category | Brief Description | Full Results | Aux File(s) |
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P | vc-species-supported-as-stated | mandatory | The model supports all species it claims to support; see full description. |
Results | Files |
P | vc-periodicity-support | mandatory | Periodic boundary conditions are handled correctly; see full description. |
Results | Files |
P | vc-permutation-symmetry | mandatory | Total energy and forces are unchanged when swapping atoms of the same species; see full description. |
Results | Files |
F | vc-dimer-continuity-c1 | informational | The energy versus separation relation of a pair of atoms is C1 continuous (i.e. the function and its first derivative are continuous); see full description. |
Results | Files |
P | vc-objectivity | informational | Total energy is unchanged and forces transform correctly under rigid-body translation and rotation; see full description. |
Results | Files |
P | vc-inversion-symmetry | informational | Total energy is unchanged and forces change sign when inverting a configuration through the origin; see full description. |
Results | Files |
P | vc-memory-leak | informational | The model code does not have memory leaks (i.e. it releases all allocated memory at the end); see full description. |
Results | Files |
P | vc-unit-conversion | mandatory | The model is able to correctly convert its energy and/or forces to different unit sets; see full description. |
Results | Files |
This bar chart plot shows the mono-atomic body-centered cubic (bcc) lattice constant predicted by the current model (shown in the unique color) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
This graph shows the cohesive energy versus volume-per-atom for the current mode for four mono-atomic cubic phases (body-centered cubic (bcc), face-centered cubic (fcc), simple cubic (sc), and diamond). The curve with the lowest minimum is the ground state of the crystal if stable. (The crystal structure is enforced in these calculations, so the phase may not be stable.) Graphs are generated for each species supported by the model.
This bar chart plot shows the mono-atomic face-centered diamond lattice constant predicted by the current model (shown in the unique color) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
This graph shows the dislocation core energy of a cubic crystal at zero temperature and pressure for a specific set of dislocation core cutoff radii. After obtaining the total energy of the system from conjugate gradient minimizations, non-singular, isotropic and anisotropic elasticity are applied to obtain the dislocation core energy for each of these supercells with different dipole distances. Graphs are generated for each species supported by the model.
(No matching species)This bar chart plot shows the mono-atomic face-centered cubic (fcc) elastic constants predicted by the current model (shown in blue) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
This bar chart plot shows the mono-atomic face-centered cubic (fcc) lattice constant predicted by the current model (shown in red) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
This bar chart plot shows the intrinsic and extrinsic stacking fault energies as well as the unstable stacking and unstable twinning energies for face-centered cubic (fcc) predicted by the current model (shown in blue) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
(No matching species)This bar chart plot shows the mono-atomic face-centered cubic (fcc) relaxed surface energies predicted by the current model (shown in blue) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
This bar chart plot shows the mono-atomic simple cubic (sc) lattice constant predicted by the current model (shown in the unique color) compared with the predictions for all other models in the OpenKIM Repository that support the species. The vertical bars show the average and standard deviation (one sigma) bounds for all model predictions. Graphs are generated for each species supported by the model.
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
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Cohesive energy versus lattice constant curve for bcc Ni v004 | view | 4845 | |
Cohesive energy versus lattice constant curve for diamond Ni v004 | view | 3720 | |
Cohesive energy versus lattice constant curve for fcc Ni v004 | view | 3471 | |
Cohesive energy versus lattice constant curve for sc Ni v004 | view | 3073 |
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
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Elastic constants for diamond Ni at zero temperature v001 | view | 26247 | |
Elastic constants for fcc Ni at zero temperature v006 | view | 17764 | |
Elastic constants for sc Ni at zero temperature v006 | view | 17764 |
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
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Equilibrium crystal structure and energy for Ni in AFLOW crystal prototype A_cF4_225_a v000 | view | 75461 | |
Equilibrium crystal structure and energy for Ni in AFLOW crystal prototype A_cI2_229_a v000 | view | 76271 | |
Equilibrium crystal structure and energy for Ni in AFLOW crystal prototype A_hP2_194_c v000 | view | 62322 |
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
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Relaxed energy as a function of tilt angle for a 100 symmetric tilt grain boundary in fcc Ni v001 | view | 33005623 | |
Relaxed energy as a function of tilt angle for a 110 symmetric tilt grain boundary in fcc Ni v001 | view | 113940206 | |
Relaxed energy as a function of tilt angle for a 111 symmetric tilt grain boundary in fcc Ni v001 | view | 57783974 | |
Relaxed energy as a function of tilt angle for a 112 symmetric tilt grain boundary in fcc Ni v001 | view | 248416352 |
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
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Equilibrium zero-temperature lattice constant for bcc Ni v007 | view | 4361 | |
Equilibrium zero-temperature lattice constant for diamond Ni v007 | view | 7603 | |
Equilibrium zero-temperature lattice constant for fcc Ni v007 | view | 3764 | |
Equilibrium zero-temperature lattice constant for sc Ni v007 | view | 6448 |
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
---|---|---|---|
Equilibrium lattice constants for hcp Ni v005 | view | 149088 |
Test | Test Results | Link to Test Results page | Benchmark time
Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run.
Measured in Millions of Whetstone Instructions (MWI) |
---|---|---|---|
Broken-bond fit of high-symmetry surface energies in fcc Ni v004 | view | 148703 |
Test | Error Categories | Link to Error page |
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Elastic constants for bcc Ni at zero temperature v006 | other | view |
Test | Error Categories | Link to Error page |
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Elastic constants for hcp Ni at zero temperature v004 | other | view |
Test | Error Categories | Link to Error page |
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Relaxed energy as a function of tilt angle for a 110 symmetric tilt grain boundary in fcc Ni v000 | other | view |
Relaxed energy as a function of tilt angle for a 112 symmetric tilt grain boundary in fcc Ni v000 | other | view |
Test | Error Categories | Link to Error page |
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Linear thermal expansion coefficient of fcc Ni at 293.15 K under a pressure of 0 MPa v001 | other | view |
Test | Error Categories | Link to Error page |
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Phonon dispersion relations for fcc Ni v004 | other | view |
Test | Error Categories | Link to Error page |
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Stacking and twinning fault energies for fcc Ni v002 | other | view |
Verification Check | Error Categories | Link to Error page |
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ForcesNumerDeriv__VC_710586816390_003 | other | view |
MemoryLeak__VC_561022993723_004 | other | view |
PeriodicitySupport__VC_895061507745_002 | other | view |
ThreadSafety__VC_881176209980_005 | other | view |
MEAM_LAMMPS_AsadiZaeemNouranian_2015_Ni__MO_700541006254_001.txz | Tar+XZ | Linux and OS X archive |
MEAM_LAMMPS_AsadiZaeemNouranian_2015_Ni__MO_700541006254_001.zip | Zip | Windows archive |
This Model requires a Model Driver. Archives for the Model Driver MEAM_LAMMPS__MD_249792265679_001 appear below.
MEAM_LAMMPS__MD_249792265679_001.txz | Tar+XZ | Linux and OS X archive |
MEAM_LAMMPS__MD_249792265679_001.zip | Zip | Windows archive |