{
    "content-origin" "http://www.ctcms.nist.gov/potentials/C.html" 
    "contributor-id" "c3e36b7f-82b0-46cb-9af3-94f80655331e" 
    "description" "Potential model for iron-carbon incorporation covalent bonding effects.  At time of publication this was the only potential which binds properly to vacancies and NOT to interstitials.  This gives it the right energetics in a dislocation core, and at a surface.  Good clustering of C behavior and fct martensite. Solution energy -7.13eV, migration energy 0.89eV  (i.e. diffuses more slowly than vacancies). Compatible with Ackland-Mendelev '04 iron." 
    "developer" [
        "7ab02670-57c6-4d83-825d-119c29b4fe91" 
        "c3e36b7f-82b0-46cb-9af3-94f80655331e"
    ] 
    "disclaimer" "Does not describe cementite. Does not describe Carbon." 
    "doi" "10.25950/a38f2843" 
    "domain" "openkim.org" 
    "extended-id" "EAM_Dynamo_HepburnAckland_2008_FeC__MO_143977152728_005" 
    "kim-api-version" "2.0" 
    "maintainer-id" "c3e36b7f-82b0-46cb-9af3-94f80655331e" 
    "model-driver" "EAM_Dynamo__MD_120291908751_005" 
    "potential-type" "eam" 
    "publication-year" "2018" 
    "source-citations" [
        {
            "author" "Hepburn, Derek J. and Ackland, Graeme J." 
            "doi" "10.1103/PhysRevB.78.165115" 
            "issue" "16" 
            "journal" "Physical Review B" 
            "month" "Oct" 
            "numpages" "6" 
            "pages" "165115" 
            "publisher" "American Physical Society" 
            "recordkey" "MO_143977152728_005a" 
            "recordprimary" "recordprimary" 
            "recordtype" "article" 
            "title" "Metallic-covalent interatomic potential for carbon in iron" 
            "volume" "78" 
            "year" "2008"
        }
    ] 
    "species" [
        "Fe" 
        "C"
    ] 
    "title" "EAM potential (LAMMPS cubic hermite tabulation) for the FeC system developed by Ackland and Hepburn (2008) v005"
}