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src/e/m/EMpy-HEAD/examples/ex_SRR.py   EMpy(Download)
import EMpy
import numpy
import pylab
 
wls = numpy.linspace(1.53e-6, 1.56e-6, 1000)

src/e/m/EMpy-HEAD/examples/ex_RCWA_3.py   EMpy(Download)
#!/usr/bin/python
 
import numpy, EMpy, pylab
from EMpy.materials import IsotropicMaterial, RefractiveIndex
 

src/e/m/EMpy-HEAD/examples/ex_RCWA_2.py   EMpy(Download)
#!/usr/bin/python
 
# inspired by Moharam, "Formulation for stable and efficient implementation of the rigorous coupled-wave analysis of binary gratings", JOSA A, 12(5), 1995
 
import numpy, EMpy, pylab

src/e/m/EMpy-HEAD/examples/ex_RCWA.py   EMpy(Download)
#!/usr/bin/python
 
import numpy, EMpy, pylab
from EMpy.materials import IsotropicMaterial, AnisotropicMaterial, RefractiveIndex, EpsilonTensor
 

src/e/m/EMpy-HEAD/examples/ex_NRR.py   EMpy(Download)
import EMpy
import numpy
import pylab
 
wls = numpy.linspace(1.53e-6, 1.57e-6, 1000)

src/e/m/EMpy-HEAD/examples/ex_modesolver2.py   EMpy(Download)
import numpy
import EMpy
 
mat1 = EMpy.materials.IsotropicMaterial('SiN',
        n0=EMpy.materials.RefractiveIndex(n0_const=1.97))

src/e/m/EMpy-HEAD/examples/ex_modesolver.py   EMpy(Download)
import numpy
import EMpy
import pylab
 
def epsfunc(x, y):

src/e/m/EMpy-HEAD/examples/ex_APRR.py   EMpy(Download)
import EMpy
import numpy
import pylab
 
wls = numpy.linspace(1.5e-6, 1.6e-6, 1000)

src/e/m/EMpy-HEAD/EMpy/scattering.py   EMpy(Download)
#-*- coding: UTF-8 -*-
import numpy
import EMpy
 
__author__ = 'Julien Hillairet'