Electronic properties of 2D and 1D systems: Difference between revisions

From Wiki Max
Jump to navigation Jump to search
No edit summary
No edit summary
Line 2: Line 2:


<gallery widths=300px heights=200px>
<gallery widths=300px heights=200px>
File:Graphen.jpg| Graphene sheet: Picture by AlexanderAlUS - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=11294534]
File:Graphen.jpg| Graphene sheet: Picture by AlexanderAlUS]
File:cnt.png| Carbon Nanotube
File:cnt.png| Carbon Nanotube
</gallery>
</gallery>

Revision as of 09:32, 1 April 2021

Prev:LabQSM#Module 3: Low dimensional structures (6h)

Input set-up for a low dimensional system:

Now we want to deal with systems of reduced dimensionality, e.g. periodic in one or two dimension but isolated in the other directions. This is accomplished by:

  • Isolating the system in the non-periodic dimension as seen in Electronic properties of isolated molecules, so inserting an amount of vacuum in the supercell.
  • Sampling the Brillouin zone that now has reduced dimension:

In Quantum ESPRESSO one needs to set the following:

  K_POINTS automatic
  nk nk 1   0 0 0     

this will generate a 2D sampling. In brief: you will need large supercells because of the present of vacuum which reflects in a large number of plane waves and a converged sampling of the BZ. The combination of this two issues makes the calculations of 2D system rather cumbersome.

Exercises:

Exercise 1:

  • build a supercell for am ideal graphene structure
  • relax the supercell
  • calculate the graphene band structure
  • calculate the density of states projected on π and σ states