Explanations of input files (dielectric function of crystalline silicon)
Contents
&calculation
Mandatory: calc_mode
&calculation calc_mode = 'GS_RT' /
This indicates that the ground state (GS) and the real time (RT) calculations are carried out sequentially in the present job. See Input variables#&calculation for detail.
&control
Mandatory: none
&control sysname = 'Si' /
'Si' defined by sysname = 'C2H2'
will be used in the filenames of output files.
&system
Mandatory: periodic, al, state, nelem, natom
&system iperiodic = 3 al = 10.26d0,10.26d0,10.26d0 nstate = 32 nelec = 32 nelem = 1 natom = 8 /
iperiodic = 3
indicates that three dimensional periodic boundary condition (bulk crystal) is assumed.
al = 10.26d0, 10.26d0, 10.26d0
specifies the lattice constans of the unit cell.
nstate = 32
indicates the number of Kohn-Sham orbitals to be solved.
nelec = 32
indicate the number of valence electrons in the system.
nelem = 1
and natom = 8
indicate the number of elements and the number of atoms in the system, respectively.
See Tutorial-v.1.0.0#&system for more information.
&pseudo
&pseudo izatom(1)=14 pseudo_file(1) = './Si_rps.dat' lloc_ps(1)=2 /
izatom(1) = 14
indicates the atomic number of the element #1.
pseudo_file(1) = 'Si_rps.dat'
indicates the pseudopotential filename of element #1.
lloc_ps(1) = 2
indicate the angular momentum of the pseudopotential that will be treated as local.
&functional
&functional xc = 'PZ' /
This indicates that the adiabatic local density approximation with the Perdew-Zunger functional is used. We note that meta-GGA functionals that reasonably reproduce the band gap of various insulators may also be used in the calculation of periodic systems. See Tutorial-v.1.0.0#&functional for detail.
&rgrid
Mandatory: dl or num_rgrid
&rgrid num_rgrid = 12,12,12 /
num_rgrid=12,12,12
specifies the number of the grids for each Cartesian direction.
See Tutorial-v.1.0.0#&rgrid for more information.
&kgrid
Mandatory: none
This namelist provides grid spacing of k-space for periodic systems.
&kgrid num_kgrid = 4,4,4 /
&tgrid
&tgrid nt=3000 dt=0.16 /
dt=0.16
specifies the time step of the time evolution calculation.
nt=3000
specifies the number of time steps in the calculation.
&propagation
&propagation propagator='etrs' /
propagator = 'etrs'
indicates the use of enforced time-reversal symmetry propagator. See Tutorial-v.1.0.0#&propagation for more information.
&scf
Mandatory: nscf
This namelists specify parameters related to the self-consistent field calculation.
&scf ncg = 5 nscf = 120 /
ncg = 5
is the number of conjugate-gradient iterations in solving the Kohn-Sham equation. Usually this value should be 4 or 5. nscf = 120
is the number of scf iterations.
&emfield
Mandatory:ae_shape1
&emfield trans_longi = 'tr' ae_shape1 = 'impulse' epdir_re1 = 0.,0.,1. /
as_shape1 = 'impulse'
indicates that a weak impulsive field is applied to all electrons at t=0
epdir_re1(3)
specify a unit vector that indicates the direction of the impulse.
trans_longi = 'tr'
specifies the treatment of the polarization in the time evolution calculation, transverse for 'tr' and longitudinal for 'lo'.
See Tutorial-v.1.0.0#&emfield for detail.
&analysis
&analysis nenergy=1000 de=0.001 /
nenergy=1000
specifies the number of energy steps, and de=0.001
specifies the energy spacing in the time-frequency Fourier transformation.
&atomic_red_coor
Mandatory: atomic_coor or atomic_red_coor (they may be provided as a separate file)
&atomic_red_coor 'Si' .0 .0 .0 1 'Si' .25 .25 .25 1 'Si' .5 .0 .5 1 'Si' .0 .5 .5 1 'Si' .5 .5 .0 1 'Si' .75 .25 .75 1 'Si' .25 .75 .75 1 'Si' .75 .75 .25 1 /
Cartesian coordinates of atoms are specified in a reduced coordinate system. First column indicates the element, next three columns specify reduced Cartesian coordinates of the atoms, and the last column labels the element.