Solution LAB2 guanine 4: Difference between revisions

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  sumpdos.x guanine_DFT.pdos_*O*  > O.dat
  sumpdos.x guanine_DFT.pdos_*O*  > O.dat
  sumpdos.x guanine_DFT.pdos_*H*  > H.dat
  sumpdos.x guanine_DFT.pdos_*H*  > H.dat
that can be plotted:
[[File:pdos_guanine.png|none|400px|top|]]
note the energy reference can be found in the quantum espresso output and here you can recognise the peaks corresponding to HOMO and LUMO at -5.42 and -1.37 eV.

Latest revision as of 08:24, 1 April 2021

An example of input file for pp.x to plot the HOMO of guanine (pp_HOMO.in) follows:

&INPUTPP
   prefix="guanine_DFT"
   outdir="./SCRATCH"
   plot_num=7
   filplot = "wfc_HOMO.pp"
   kband=28
   kpoint=1
   lsign=.true.
/
&PLOT
   nfile=1
   filepp(1)="wfc_HOMO.pp"
   iflag=3
   output_format=5
   fileout="wfc_HOMO.xsf"
/

by running as

 pp.x < pp_HOMO.in > pp_HOMO.out

should produce as output the file wfc_HOMO.xsf that can be plotted using xcrysden.

Here is a sketch of the guanine HOMO isosurface:

  • Total and projected density of states are calculated using projwfc.x. An example of input file is:
&PROJWFC
 prefix='guanine_DFT'
 outdir="./SCRATCH"
 ngauss=0
 degauss=0.01
/

by running as

projwfc.x < pdos.in > pdos.out 

it produces a file containing the total density of states (guanine_DFT.pdos_tot) and a series of files containing the density of states projected on each atom and each atomic orbital e.g.

guanine_DFT.pdos_atm#1(C)_wfc#1(s) contains the dos projected on the s orbital of the first Carbon atom

guanine_DFT.pdos_atm#8(N)_wfc#2(p) contains the dos projected on the p orbitals of the eighth Nitrogen atom

The projected dos can be further processed. To obtain the projected dos on a species we can sum up the DOS on all the atoms of the same species using the sumpdos.x executable e.g.:

sumpdos.x guanine_DFT.pdos_*C*  > C.dat
sumpdos.x guanine_DFT.pdos_*N*  > N.dat
sumpdos.x guanine_DFT.pdos_*O*  > O.dat
sumpdos.x guanine_DFT.pdos_*H*  > H.dat

that can be plotted:

note the energy reference can be found in the quantum espresso output and here you can recognise the peaks corresponding to HOMO and LUMO at -5.42 and -1.37 eV.