グラフェンを例に、より詳しい計算の演習を行う。
a0 = 2.461 # Lattice constant of Graphene from math import sqrt c1 = ( a0*sqrt(3.0)/2.0, a0/2.0, 0.0) c2 = (-a0*sqrt(3.0)/2.0, a0/2.0, 0.0) c3 = (0.0, 0.0, a0*8.0) # Height of 3D unit cell from ase import Atom atom1 = Atom('C', (1.0/3.0, 2.0/3.0, 0.5)) atom2 = Atom('C', (2.0/3.0, 1.0/3.0, 0.5)) from ase import Atoms box1 = Atoms([atom1, atom2], pbc = True) box1.set_cell([c1, c2, c3], scale_atoms = True) from ase.calculators.jacapo import Jacapo solver1 = Jacapo(nbands = 8, kpts = (2, 2, 1), pw = 150, dw = 150) box1.set_calculator(solver1) solver1.calculate()
b0 = 1.42 # C-C bond length from math import sqrt a0 = b0*sqrt(3.0) ax = a0*sqrt(3.0)/2.0 # ax = b0*3.0/2.0 ay = a0/2.0 az = a0*8 # Height of 3D unit cell c1 = ( ax, ay, 0.0) c2 = (-ax, ay, 0.0) c3 = (0.0, 0.0, az) unit_cell = [c1, c2, c3] # Unit cell
v1 = (1.0/3.0, 2.0/3.0, 0.5) v2 = (2.0/3.0, 1.0/3.0, 0.5) positions = [v1, v2] from ase import Atom list_of_atoms = [] for pos in positions: atm = Atom('C', pos) list_of_atoms.append(atm) # # list_of_atoms is a list of [atom1, atom2]
# ------------------------- # Calculational conditions # ------------------------- kwargs = {} kwargs['nbands'] = 8 # Number of Valence electrons kwargs['kpts'] = (2, 2, 1) # k-point sampling in the 1st BZ kwargs['pw'] = 150 # Energy cutoff for wave functions kwargs['dw'] = 150 # Energy cutoff for charge density
# --------------------------- # Common part of calculations # --------------------------- from ase import Atoms box1 = Atoms(list_of_atoms, pbc = True) box1.set_cell(unit_cell, scale_atoms = True) from ase.calculators.jacapo import Jacapo solver1 = Jacapo(**kwargs) box1.set_calculator(solver1) solver1.calculate()
# ------------------ # Output on screen # ------------------ print box1.get_total_energy()