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dft_tools/test/pytriqs/base/gf_bcast.py
Olivier Parcollet f2c7d449cc First commit : triqs libs version 1.0 alpha1
for earlier commits, see TRIQS0.x repository.
2013-07-17 19:24:07 +02:00

52 lines
1.1 KiB
Python

# Import the Green's functions
from pytriqs.gf.local import GfImFreq, iOmega_n, inverse
# Create the Matsubara-frequency Green's function and initialize it
g = GfImFreq(indices = [1], beta = 50, n_points = 1000, name = "imp")
g <<= inverse( iOmega_n + 0.5 )
import pytriqs.utility.mpi as mpi
mpi.bcast(g)
#Block
from pytriqs.gf.local import *
g1 = GfImFreq(indices = ['eg1','eg2'], beta = 50, n_points = 1000, name = "egBlock")
g2 = GfImFreq(indices = ['t2g1','t2g2','t2g3'], beta = 50, n_points = 1000, name = "t2gBlock")
G = BlockGf(name_list = ('eg','t2g'), block_list = (g1,g2), make_copies = False)
mpi.bcast(G)
#imtime
from pytriqs.gf.local import *
# A Green's function on the Matsubara axis set to a semicircular
gw = GfImFreq(indices = [1], beta = 50)
gw <<= SemiCircular(half_bandwidth = 1)
# Create an imaginary-time Green's function and plot it
gt = GfImTime(indices = [1], beta = 50)
gt <<= InverseFourier(gw)
mpi.bcast(gt)
##
gt2 = GfImTime(indices = [1], beta = 50)
gt2 = mpi.bcast(gt2)
print gt2.tail.order_max
print gt2.tail.order_min
gw2 = GfImFreq(indices = [1], beta = 50)
gw2 <<= Fourier(gt2)