Solution LAB3 graphene

• Back to the previous page: Electronic properties of 2D and 1D systems#Exercise 1: Graphene

Step 1

• Graphene has an honeycomb lattice and we can define the unit cell by considering an hexagonal lattice and two atoms per cell. The CC distance is 0.142nm. An input file can be set using an hexagonal bravais lattice as:

&system  
ibrav= 4, celldm(1) =4.6542890, celldm(3)=something appropriate, nat= 2, ntyp= 1, [...]  
/ 
ATOMIC_POSITIONS {crystal}  
C 0.0000000 0.0000000 0.000000  
C 0.3333333 0.6666666 0.000000

• Graphene is a quasi-metal, pay attention to the smearing
• K point sampling on the plane. If multiple of 3 you can include the high symmetry point K in your sampling
• You may want visualise your input using xcrysden and measure the CC distance

Step 2

• When relaxing the system you may want to keep fixed the direction orthogonal to the graphene sheet. This is done by inserting in your input the CELL namelist

&CELL
 cell_dofree='2Dxy'
 ...
/

Step 3

• Let's consider the path Gamma-->M-->K-->Gamma