Solution LAB3 hBN: Difference between revisions

From Wiki Max
Jump to navigation Jump to search
No edit summary
No edit summary
 
(3 intermediate revisions by 2 users not shown)
Line 3: Line 3:
*If you do not have already done, git pull the LabQSM repository to get the Boron pseudo-potential  
*If you do not have already done, git pull the LabQSM repository to get the Boron pseudo-potential  
*Use the same input used for graphene inserting the two non-equivalent atoms
*Use the same input used for graphene inserting the two non-equivalent atoms
*Relax the cell as done before
*Relax the cell as done before (at the LDA level, a = 4.654 Bohr)
*For the bulk structure the c/a cell parameter is 2.582 (including 2 hBN layers)

Latest revision as of 16:11, 15 March 2022

Now we do have two non-equivalent atoms

  • If you do not have already done, git pull the LabQSM repository to get the Boron pseudo-potential
  • Use the same input used for graphene inserting the two non-equivalent atoms
  • Relax the cell as done before (at the LDA level, a = 4.654 Bohr)
  • For the bulk structure the c/a cell parameter is 2.582 (including 2 hBN layers)