Note
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HEX#
Hexagonal cell is defined by two parameters \(a\) and \(c\).
Cell constructor#
To get an example of the cell use wulfric.cell.SC_HEX().
wulfric.cell.sc_get_example() returns an example where
\(a = \pi\) and \(c = 2\pi\).
import wulfric
cell = wulfric.cell.sc_get_example("HEX")
atoms = dict(positions=[[0, 0, 0]], spglib_types=[1])
# To avoid multiple calls to spglib one can do it once and then pass spglib_data
# to the functions where it is needed
spglib_data = wulfric.get_spglib_data(cell=cell, atoms=atoms)
kp = wulfric.Kpoints.from_crystal(cell=cell, atoms=atoms, convention="SC")
conv_cell, conv_atoms = wulfric.crystal.get_conventional(
cell=cell, atoms=atoms, convention="SC", spglib_data=spglib_data
)
prim_cell, prim_atoms = wulfric.crystal.get_primitive(
cell=cell, atoms=atoms, convention="SC", spglib_data=spglib_data
)
K-path#
print(kp.path_string)
GAMMA-M-K-GAMMA-A-L-H-A|L-M|K-H
High-symmetry points#
print(kp.hs_table(decimals=4))
Name rel_b1 rel_b2 rel_b3 k_x k_y k_z
GAMMA 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000
A 0.0000 0.0000 0.5000 0.0000 0.0000 0.5000
H -0.3333 0.6667 0.5000 0.6667 1.1547 0.5000
K -0.3333 0.6667 0.0000 0.6667 1.1547 0.0000
L 0.0000 0.5000 0.5000 1.0000 0.5774 0.5000
M 0.0000 0.5000 0.0000 1.0000 0.5774 0.0000
Brillouin zone and default k-path#
pe = wulfric.PlotlyEngine(_sphinx_gallery_fix=True)
pe.plot_brillouin_zone(
cell=prim_cell, color="red", legend_label="Brillouin zone of the primitive cell"
)
pe.plot_brillouin_zone(
cell=cell, color="chocolate", legend_label="Brillouin zone of the original cell"
)
pe.plot_kpath(kp=kp)
pe.plot_kpoints(kp=kp, only_from_kpath=True)
pe.show(axes_visible=False)
Cells of real space#
pe = wulfric.PlotlyEngine(_sphinx_gallery_fix=True)
pe.plot_cell(cell=cell, legend_label="Original cell", color="Chocolate")
pe.plot_cell(cell=prim_cell, legend_label="Primitive cell", color="Black")
pe.plot_cell(cell=conv_cell, legend_label="Conventional cell", color="Blue")
pe.plot_wigner_seitz_cell(
cell=prim_cell, legend_label="Wigner-Seitz cell", color="green"
)
pe.show(axes_visible=False)
Total running time of the script: (0 minutes 1.267 seconds)