*************************************************** Input file *************************************************** # # File Name # System.CurrrentDir ./ # default=./ System.Name Be_PBE11 Log.print OFF # ON|OFF System.UseRestartfile yes # NO|YES, default=NO System.Restartfile Be_PBE11 # default=null # # Calculation type # eq.type dirac # sch|sdirac|dirac calc.type vps # ALL|VPS|PAO xc.type GGA # LDA|GGA # # Atom # AtomSpecies 4 max.occupied.N 2 total.electron 4.0 valence.electron 2.0 # # parameters for solving 1D-differential equations # grid.xmin -8.0 # default=-7.0 rmin(a.u.)=exp(grid.xmin) grid.xmax 3.0 # default= 2.5 rmax(a.u.)=exp(grid.xmax) grid.num 10000 # default=4000 grid.num.output 500 # default=2000 # # SCF # scf.maxIter 50 # default=40 scf.Mixing.Type Simple # Simple|GR-Pulay scf.Init.Mixing.Weight 0.10 # default=0.300 scf.Min.Mixing.Weight 0.001 # default=0.001 scf.Max.Mixing.Weight 0.800 # default=0.800 scf.Mixing.History 7 # default=5 scf.Mixing.StartPulay 4 # default=6 scf.criterion 1.0e-14 # default=1.0e-9 # # Pseudo potetial, cutoff (A.U.) # vps.type MBK # BHS|TM number.vps 4 Blochl.projector.num 3 # default=1 which means KB-form local.type Polynomial # Simple|Polynomial local.part.vps 0 # default=0 local.cutoff 1.30 # default=smallest_cutoff_vps local.origin.ratio 1.20 # default=3.0 log.deri.RadF.calc on # ON|OFF log.deri.MinE -2.0 # default=-3.0 (Hartree) log.deri.MaxE 2.0 # default= 2.0 (Hartree) log.deri.num 60 # default=50 ghost.check off # ON|OFF # # Core electron density for partial core correction # pcc.ratio=rho_core/rho_V, # pcc.ratio.origin = rho_core(orgin)/rho_core(ip) # charge.pcc.calc on # ON|OFF pcc.ratio 0.1 # default=1.0 pcc.ratio.origin 8.0 # default=6.0 # # Pseudo atomic orbitals # maxL.pao 3 # default=2 num.pao 15 # default=7 radial.cutoff.pao 7.0 # default=5.0 (Bohr) height.of.wall 20000.0 # default=4000.0 (Hartree) rising.edge 0.2 # default=0.5(Bohr),r1=rc-rising.edge search.LowerE -3.000 # default=-3.000 (Hartree) search.UpperE 40.000 # default=20.000 (Hartree) num.of.partition 1000 # default=300 matching.point.ratio 0.67 # default=0.67 ***************************************************** SCF history in all electron calculations ***************************************************** ***************************************************** Eigenvalues (Hartree) in the all electron calculation ***************************************************** j=l+1/2 j=l-1/2 n= 1 l= 0 -3.9025543115558 -3.9025543115558 n= 2 l= 0 -0.2061399642857 -0.2061399642857 ***************************************************** Energies (Hartree) in the all electron calculation ***************************************************** Eeigen = -8.2173885516829 Ekin = 14.5624493008512 EHart = 7.1698338556063 Exc = -2.7188538157823 Eec = -33.6456746323023 Etot = Ekin + EHart + Exc + Eec Etot = -14.6322452916271 *********************************************************** ** DATA for factorized norm conserving pseudo potentials ** *********************************************************** j.dependent.pseudo.potentials on L=0, dif of log deris for all electrons = 0.0941562112 0.0941562112 L=0, dif of log deris for semi local = 8.4861849712 8.4861849712 L=1, dif of log deris for all electrons = 171.7974923534 156.6892663774 L=1, dif of log deris for semi local = 120.3911092929 109.4212413596 L=2, dif of log deris for all electrons = 0.0001548220 0.0001568755 L=2, dif of log deris for semi local = 0.0000123086 0.0000124632 *********************************************************** ** Core electron densities for PCC ** ***********************************************************