if EELS:
for i in range(1, 2):
w = np.linspace(0, 15, 301)
q = np.array([-i / 64., i / 64., 0.]) # Gamma - K
ecut = 40 + i * 10
df = DF(calc=calc,
q=q,
w=w,
eta=0.05,
ecut=ecut,
txt='df_' + str(i) + '.out')
df.get_surface_response_function(z0=21.2 / 2, filename='be_EELS')
df.get_EELS_spectrum()
df.check_sum_rule()
df.write('df_' + str(i) + '.pckl')
if check:
d = np.loadtxt('be_EELS')
wpeak1 = 2.50 # eV
wpeak2 = 9.95
Nw1 = 50
Nw2 = 199
if (d[Nw1, 1] > d[Nw1 - 1, 1] and d[Nw1, 1] > d[Nw1 + 1, 1]
and d[Nw2, 1] > d[Nw2 - 1, 1] and d[Nw2, 1] > d[Nw2 + 1, 1]):
pass
else:
raise ValueError('Plasmon peak not correct ! ')
eta=0.2)
bse.get_dielectric_function('Al_bse.dat')
if df:
# Excited state calculation
q = np.array([1/4.,0.,0.])
w = np.linspace(0, 24, 241)
df = DF(calc='Al.gpw',
q=q,
w=w,
eta=0.2,
ecut=50,
hilbert_trans=False)
df.get_EELS_spectrum(filename='Al_df.dat')
df.write('Al.pckl')
df.check_sum_rule()
if check_spectrum:
d = np.loadtxt('Al_bse.dat')[:,2]
wpeak = 16.4
Nw = 164
if d[Nw] > d[Nw-1] and d[Nw] > d[Nw+1]:
pass
else:
raise ValueError('Plasmon peak not correct ! ')
if np.abs(d[Nw] - 27.4958893542) > 1e-5:
print d[Nw]
raise ValueError('Please check spectrum strength ! ')
w = np.linspace(0, 24, 481)
q = np.array([0.0, 0.00001, 0.])
# getting macroscopic constant
df = DF(calc='si.gpw',
q=q,
w=(0., ),
eta=0.001,
hilbert_trans=False,
ecut=150,
optical_limit=True,
txt='df_1.out')
eM1, eM2 = df.get_macroscopic_dielectric_constant()
df.write('df_1.pckl')
if np.abs(eM1 - 13.991793) > 1e-3 or np.abs(eM2 - 12.589129) > 1e-3:
print(eM1, eM2)
raise ValueError('Please check dielectric constant !')
#getting absorption spectrum
df = DF(calc='si.gpw',
q=q,
w=w,
eta=0.1,
ecut=150,
optical_limit=True,
txt='df_2.out')
df.get_absorption_spectrum(filename='si_abs')
eta=0.2)
bse.get_dielectric_function('Al_bse.dat')
if df:
# Excited state calculation
q = np.array([1/4.,0.,0.])
w = np.linspace(0, 24, 241)
df = DF(calc='Al.gpw',
q=q,
w=w,
eta=0.2,
ecut=50,
hilbert_trans=False)
df.get_EELS_spectrum(filename='Al_df.dat')
df.write('Al.pckl')
df.check_sum_rule()
if check_spectrum:
d = np.loadtxt('Al_bse.dat')[:,2]
wpeak = 16.4
Nw = 164
if d[Nw] > d[Nw-1] and d[Nw] > d[Nw+1]:
pass
else:
raise ValueError('Plasmon peak not correct ! ')
if np.abs(d[Nw] - 27.4958893542) > 1e-5:
print(d[Nw])
raise ValueError('Please check spectrum strength ! ')
width=0.1)
atoms.set_calculator(calc)
atoms.get_potential_energy()
if EELS:
for i in range(1, 2):
w = np.linspace(0, 15, 301)
q = np.array([-i/64., i/64., 0.]) # Gamma - K
ecut = 40 + i*10
df = DF(calc=calc, q=q, w=w, eta=0.05, ecut = ecut,
txt='df_' + str(i) + '.out')
df.get_surface_response_function(z0=21.2/2, filename='be_EELS')
df.get_EELS_spectrum()
df.check_sum_rule()
df.write('df_' + str(i) + '.pckl')
if check:
d = np.loadtxt('be_EELS')
wpeak1 = 2.50 # eV
wpeak2 = 9.95
Nw1 = 50
Nw2 = 199
if (d[Nw1, 1] > d[Nw1-1, 1] and d[Nw1, 1] > d[Nw1+1, 1] and
d[Nw2, 1] > d[Nw2-1, 1] and d[Nw2, 1] > d[Nw2+1, 1]):
pass
else:
raise ValueError('Plasmon peak not correct ! ')
