Fcc Si bandstructure: Difference between revisions

Latest revision as of 08:15, 21 February 2020

Overview > fcc Si > fcc Si DOS > fcc Si bandstructure > cd Si > cd Si volume relaxation > cd Si relaxation > beta-tin Si > fcc Ni > graphite TS binding energy > graphite MBD binding energy > graphite interlayer distance > List of tutorials

Task

Computation of the bandstructure in fcc Si along L-Γ-X-U and K-Γ.

Input

POSCAR

fcc Si:
 3.9
 0.5 0.5 0.0
 0.0 0.5 0.5
 0.5 0.0 0.5
   1
cartesian
0 0 0

INCAR

System = fcc Si 
ICHARG = 11 #charge read file
ENCUT  =    240
ISMEAR = 0; SIGMA = 0.1;
LORBIT = 11

KPOINTS

k-points for bandstructure L-G-X-U K-G
 10
line
reciprocal
  0.50000  0.50000  0.50000    1
  0.00000  0.00000  0.00000    1

  0.00000  0.00000  0.00000    1
  0.00000  0.50000  0.50000    1

  0.00000  0.50000  0.50000    1
  0.25000  0.62500  0.62500    1

  0.37500  0.7500   0.37500    1
  0.00000  0.00000  0.00000    1

k points along the line $L - \Gamma - X - U K - \Gamma$ .
10 points per line.
Keyword line to generate bandstructure.
In reciprocal coordinates.
All points with weight 1.
Example bandstructure should look like this:

CHGCAR

This calculation needs a converged charge density as input (ICHARG=11). You may use the CHGCAR file of the fcc Si DOS example.

CALCULATION

To copy the self-consistent charge density of example fccSidos to your current working directory, type:

cp ../fccSidos/CHGCAR .

You must do this otherwise VASP can not read the CHGCAR and will terminate.

To plot the bandstructure use p4vasp:

Mind: For this calculations you need the CHGCAR file of the fcc Si DOS example.

Download

fccSiband.tgz

Overview > fcc Si > fcc Si DOS > fcc Si bandstructure > cd Si > cd Si volume relaxation > cd Si relaxation > beta-tin Si > fcc Ni > graphite TS binding energy > graphite MBD binding energy > graphite interlayer distance > List of tutorials

@@ Line 1: / Line 1: @@
-{{Template:Bulk_systems}}
+{{Template:Bulk_systems - Tutorial}}
-----
 == Task ==
-Compute the bandstructure in fcc Si along L-&Gamma;-X-U and K-&Gamma.
+Computation of the bandstructure in fcc Si along L-&Gamma;-X-U and K-&Gamma;.
 == Input ==
+=== {{TAG|POSCAR}} ===
+ fcc Si:
+.9
+.5 0.5 0.0
+.0 0.5 0.5
+.5 0.0 0.5
+ cartesian
+0 0
 === {{TAG|INCAR}} ===
@@ Line 34: / Line 41: @@
 .00000  0.00000  0.00000    1
-=== {{TAG|POSCAR}} ===
+*k points along the line <math>L - \Gamma - X - U K - \Gamma</math>.
- fcc Si:
+*10 points per line.
-.9
+*Keyword ''line'' to generate bandstructure.
-.5 0.5 0.0
+*In reciprocal coordinates.
-.0 0.5 0.5
+*All points with weight 1.
-.5 0.0 0.5
+*Example bandstructure should look like this:
+[[File:Fig Si 5.png|300px]]
- cartesian
-0 0
 === {{TAG|CHGCAR}} ===
 This calculation needs a converged charge density as input ({{TAG|ICHARG}}=11).
-You may use the {{FILE|CHGCAR}} file of the [[Fcc Si DOS|fcc Si DOS example]].
+You may use the {{FILE|CHGCAR}} file of the [[Fcc Si DOS|fcc Si DOS]] example.
+==  CALCULATION ==
+*To copy the self-consistent charge density of example fccSidos to your current working directory, type:
+ cp ../fccSidos/CHGCAR .
+* You must do this otherwise VASP can not read the {{TAG|CHGCAR}} and will terminate.
-==  CALUCLATION ==
+*To plot the bandstructure use p4vasp:
+[[File:Fig Si 6.png|800px]]
 '''Mind''': For this calculations you need the {{FILE|CHGCAR}} file of the [[Fcc Si DOS|fcc Si DOS example]].
 == Download ==
-[http://www.vasp.at/vasp-workshop/examples/fccSiband.tgz fccSiband.tgz]
+[[Media:FccSiband.tgz| fccSiband.tgz]]
-----
-[[VASP_example_calculations|To the list of examples]] or to the [[The_VASP_Manual|main page]]
+{{Template:Bulk_systems}}
 [[Category:Examples]]