{"creator" "Junhao Li and Ellad Tadmor"
 "contributor-id" "360c0aed-48ce-45f6-ba13-337f12a531e8"
 "description" "Given the zero-pressure, zero-temperature lattice constant of fcc Cm, this Test computes the corresponding elastic constants using numerical differentiation of the potential energy w.r.t. strain of the unit cell."
 "disclaimer" "Computer-generated"
 "domain" "openkim.org"
 "executables" ["runner"]
 "extended-id" "ElasticConstantsCubic_fcc_Cm__TE_091014215486_005"
 "kim-api-version" "2.0"
 "maintainer-id" "360c0aed-48ce-45f6-ba13-337f12a531e8"
 "publication-year" "2019"
 "source-citations" [{"address" "New York"
                      "author" "H.B. Huntington"
                      "doi" "10.1016/S0081-1947(08)60553-6"
                      "journal" "Solid State Physics"
                      "pages" "213--351"
                      "publisher" "Academic Press"
                      "recordkey" "TE_091014215486_005a"
                      "recordtype" "article"
                      "title" "The Elastic Constants of Crystals"
                      "volume" "7"
                      "year" "1958"}]
 "species" ["Cm"]
 "test-driver" "ElasticConstantsCubic__TD_011862047401_005"
 "title" "Elastic constants for fcc Cm at zero temperature v005"}