Subband structure of graphene nanoribbons
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Tools
8-ZGNR using grid
- zgnr_grid.py:
8-ZGNR using LCAO
- zgnr_lcao.py:
from gpaw import GPAW, FermiDirac from ase import Atoms from ase.io import read, write from gpaw import GPAW, PoissonSolver, Mixer from ase.structure import graphene_nanoribbon # ------------------------------------------------------------- # Bulk configuration # ------------------------------------------------------------- zgnr = graphene_nanoribbon(8, 1, type='zigzag', saturated=True, C_H=1.1, C_C=1.42086, vacuum=8.0, magnetic=False, initial_mag=0.0) zgnr.center() write('zgnr.traj', zgnr) # Make self-consistent calculation and save results calc = GPAW(h=0.18, mode='lcao', xc='PBE', basis='szp(dzp)', kpts=(1,1,9), occupations=FermiDirac(width=0.05, maxiter=2000), mixer=Mixer(beta=0.010, nmaxold=8, weight=100.0), poissonsolver=PoissonSolver(eps=1e-12), txt='band_sc.txt') zgnr.set_calculator(calc) zgnr.get_potential_energy() calc.write('band_sc.gpw') # Calculate band structure along Gamma-X from ase.dft.kpoints import ibz_points, get_bandpath #points = ibz_points['fcc'] #G = points['Gamma'] #X = points['X'] G = (0, 0, 0) X = (0, 0, 0.5) kpts, x, X = get_bandpath([G, X], zgnr.cell, 60) calc = GPAW('band_sc.gpw', mode='lcao', xc='PBE', basis='szp(dzp)', kpts=kpts, txt='band_harris.txt', fixdensity=True, parallel={'domain': 1}, usesymm=None, convergence={'bands': 'all'}) if calc.input_parameters['mode'] == 'lcao': calc.scf.reset() calc.get_potential_energy() calc.write('band_harris.gpw')