2D material: h-BN sheet
In this tutorial you will learn how to generate the Yambo SAVE folder for a 2D hBN sheet starting from a PWscf calculation.
Prerequisites
Previous modules
- You must first follow the tutorial on bulk hBN.
You will need:
- PWSCF input files and pseudopotentials for 2D hBN sheet (Download here)
pw.x
executable, version 5.0 or laterp2y
executable
System characteristics
Hexagonal boron nitride sheet - 2D hBN:
- 2D HCP lattice
- Two atoms per cell, B and N (8 electrons)
- Lattice constants: a = 4.716 [a.u.], c/a = 7 (supercell size)
- Plane wave cutoff 40 Ry (~5000 RL vectors in wavefunctions)
- SCF run: shifted 6x6x1 grid (12 k-points) with 4 bands
- Non-SCF run: gamma-centred 6x6x1 (7 k-points) grid with 60 bands
DFT calculations
Unpack the tarfile. It uses the same file structure as other yambo tutorials:
$ tar -xcvf hBN-2D.tar $ cd YAMBO_TUTORIALS/hBN-2D/PWSCF $ ls Inputs Pseudos PostProcessing References hBN_2D_scf.in hBN_2D_nscf.in hBN_2D_scf_bands.in hBN_2D_nscf_bands.in
The procedure is exactly the same as following in the Bulk_material:_h-BN tutorial, so no detailed explanations will be given here.
pw.x < hBN_2D_scf.in > hBN_2D_scf.out pw.x < hBN_2D nscf.in > hBN_2D_nscf.out
The valence band maximum is computed at -4.29 eV. After these two runs, you should have a hBN_2D.save
directory.
$ ls hBN_2D.save data-file.xml charge-density.dat gvectors.dat B.pz-vbc.UPF N.pz-vbc.UPF K00001 K00002 .... K00011 K00012
Conversion to Yambo format
Run the converter and check that the databases contain the information you expect:
$ cd hBN_2D.save $ p2y <---> DBs path set to . <---> Index file set to data-file.xml ... <---> == P2Y completed == $ yambo -D [RD./SAVE//ns.db1]------------------------------------------ Bands : 60 K-points : 7 G-vectors [RL space]: 21817 Components [wavefunctions]: 2736 ... [RD./SAVE//ns.wf]------------------------------------------- Fragmentation :yes Bands in each block : 60 ... [RD./SAVE//ns.kb_pp_pwscf]---------------------------------- Fragmentation :yes - S/N 0000908 -------------------------- v.04.01.02 r.00000 -
Note that the number of wavefunction components (G-vectors) is much higher than in the bulk hBN case (why?)
Continue using a SAVE
we prepared previously:
$ cd ../../YAMBO $ ls SAVE