# Crystalline aluminum # # Determination of the surface energy of aluminum : # a minimal slab. #Definition of occupation numbers occopt 4 tsmear 0.04 #Definition of the k-point grid ngkpt 4 4 1 nshiftk 2 shiftk 0.5 0.0 0.0 0.0 0.5 0.0 #Definition of the unit cell acell 3*7.50559090E+00 # Lattice parameters of bulk aluminum rprim 0.5 -0.5 0.0 # The lattice vector along the z direction 0.5 0.5 0.0 # is doubled with respect to previous run. 0.0 0.0 2.0 # #Definition of the atom types ntypat 1 # There is only one type of atom znucl 13 # The keyword "znucl" refers to the atomic number of the # possible type(s) of atom. The pseudopotential(s) # mentioned in the "files" file must correspond # to the type(s) of atom. Here, the only type is Aluminum #Definition of the atoms natom 3 # Three atoms per cell: three aluminum layers and some vacuum typat 3*1 # These atoms are of type 1, that is, Aluminum xred # This keyword indicate that the location of the atoms # will follow, one triplet of number for each atom 0.0 0.0 0.0 # Triplet giving the REDUCED coordinate of atom 1. 0.5 0.5 0.25 # Triplet giving the REDUCED coordinate of atom 2. 0.0 0.0 0.5 # Triplet giving the REDUCED coordinate of atom 3. # The z-coordinate of the vacuum layer is 0.75 . #The relaxation ionmov 2 tolmxf 5.0d-4 ntime 10 #Exchange-correlation functional ixc 1 # LDA Teter Pade parametrization #Definition of the planewave basis set ecut 6.0 # Maximal kinetic energy cut-off, in Hartree #Definition of the SCF procedure nstep 10 # Maximal number of SCF cycles toldff 5.0d-5 pp_dirpath "$ABI_PSPDIR" pseudos "13al.981214.fhi" #%% #%% [setup] #%% executable = abinit #%% [files] #%% files_to_test = #%% tbase4_5.out, tolnlines= 0, tolabs= 0.000e+00, tolrel= 0.000e+00, fld_options=-easy #%% [paral_info] #%% max_nprocs = 4 #%% [extra_info] #%% authors = Unknown #%% keywords = #%% description = #%% Crystalline aluminum #%% #%% Determination of the surface energy of aluminum : #%% a minimal slab. #%%