Jump to: Files | Wiki

LinearThermalExpansionCoeffCubic__TD_522633393614_000

Title
A single sentence description.
Linear thermal expansion coefficient of a cubic crystal structure at a given temperature and pressure v000
Description This Test Driver uses LAMMPS to compute the linear thermal expansion coefficient at a finite temperature under a given pressure for cubic lattice (fcc, bcc, sc, diamond) of a single given species.
Contributor Mwen
Maintainer Mwen
Author Mingjian Wen
Publication Year 2016
Item Citation Click here to download a citation in BibTeX format.
Short KIM ID
The unique KIM identifier code.
TD_522633393614_000
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.
LinearThermalExpansionCoeffCubic__TD_522633393614_000
Citable Link https://openkim.org/cite/TD_522633393614_000
KIM Item TypeTest Driver
Properties
Properties as defined in kimspec.edn.
KIM API Version1.9.0
Simulator Name
The name of the simulator as defined in kimspec.edn.
LAMMPS
Programming Language(s)
The programming languages used in the code and the percentage of the code written in each one.
100.00% Python

Tests using this Test Driver

LinearThermalExpansionCoeff_bcc_Ba__TE_132553522497_000
LinearThermalExpansionCoeff_bcc_Cr__TE_435511432078_000
LinearThermalExpansionCoeff_bcc_Cs__TE_124842053505_000
LinearThermalExpansionCoeff_bcc_Eu__TE_883193159339_000
LinearThermalExpansionCoeff_bcc_Fe__TE_506786620750_000
LinearThermalExpansionCoeff_bcc_K__TE_293947541816_000
LinearThermalExpansionCoeff_bcc_Li__TE_940119952339_000
LinearThermalExpansionCoeff_bcc_Mo__TE_653330286461_000
LinearThermalExpansionCoeff_bcc_Na__TE_398765858860_000
LinearThermalExpansionCoeff_bcc_Rb__TE_027845558943_000
LinearThermalExpansionCoeff_bcc_Ta__TE_537849920850_000
LinearThermalExpansionCoeff_bcc_V__TE_417640301289_000
LinearThermalExpansionCoeff_bcc_W__TE_489123578653_000
LinearThermalExpansionCoeff_diamond_C__TE_640411322333_000
LinearThermalExpansionCoeff_diamond_Ge__TE_778011010022_000
LinearThermalExpansionCoeff_diamond_Si__TE_782453122212_000
LinearThermalExpansionCoeff_diamond_Sn__TE_836750009088_000
LinearThermalExpansionCoeff_fcc_Ac__TE_611064980563_000
LinearThermalExpansionCoeff_fcc_Ag__TE_016048498506_000
LinearThermalExpansionCoeff_fcc_Al__TE_957040092249_000
LinearThermalExpansionCoeff_fcc_Ar__TE_732820333279_000
LinearThermalExpansionCoeff_fcc_Au__TE_173429922932_000
LinearThermalExpansionCoeff_fcc_Ca__TE_389870929270_000
LinearThermalExpansionCoeff_fcc_Ce__TE_716914137201_000
LinearThermalExpansionCoeff_fcc_Cu__TE_335019190158_000
LinearThermalExpansionCoeff_fcc_Ir__TE_657654753530_000
LinearThermalExpansionCoeff_fcc_Kr__TE_080995775402_000
LinearThermalExpansionCoeff_fcc_Ne__TE_243550005184_000
LinearThermalExpansionCoeff_fcc_Ni__TE_127978642829_000
LinearThermalExpansionCoeff_fcc_Pb__TE_051450577568_000
LinearThermalExpansionCoeff_fcc_Pd__TE_728704926608_000
LinearThermalExpansionCoeff_fcc_Pt__TE_325427650920_000
LinearThermalExpansionCoeff_fcc_Rh__TE_500354655277_000
LinearThermalExpansionCoeff_fcc_Sr__TE_380277273371_000
LinearThermalExpansionCoeff_fcc_Th__TE_780283590779_000
LinearThermalExpansionCoeff_fcc_Xe__TE_246024074275_000
LinearThermalExpansionCoeff_fcc_Yb__TE_033069610010_000
LinearThermalExpansionCoeff_sc_Po__TE_573533540838_000


Wiki

Wiki is ready to accept new content.

Login to edit Wiki content