def initDemoSystem(self):
     s = OpticalSystem()
     
     lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="object", decz=0.0), refname=s.rootcoordinatesystem.name)                
     lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=2.0), refname=lc0.name) # objectDist
     lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=3.0), refname=lc1.name)
     lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf3", decz=5.0, tiltx=0.0*math.pi/180.0), refname=lc2.name)
     lc4 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf4", decz=3.0), refname=lc3.name)
     lc5 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf5", decz=3.0), refname=lc4.name)
     lc6 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf6", decz=2.0), refname=lc5.name)
     lc7 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf7", decz=3.0), refname=lc6.name)
     lc8 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=19.0), refname=lc7.name)
     
     
     objectsurf = Surface(lc0)
     surf1 = Surface(lc1, shape=surfShape.Conic(lc1, curv=1/-5.922))
     surf2 = Surface(lc2, shape=surfShape.Conic(lc2, curv=1/-3.160))
     surf3 = Surface(lc3, shape=surfShape.Conic(lc3, curv=1/15.884))
     surf4 = Surface(lc4, shape=surfShape.Conic(lc4, curv=1/-12.756))
     stopsurf = Surface(lc5)
     surf6 = Surface(lc6, shape=surfShape.Conic(lc6, curv=1/3.125))
     surf7 = Surface(lc7, shape=surfShape.Conic(lc7, curv=1/1.479))
     image = Surface(lc8)
     
     
     elem = OpticalElement(lc0, label="lenssystem")
     
     glass = material_isotropic.ConstantIndexGlass(lc0, n=1.7)
     glass2 = material_isotropic.ConstantIndexGlass(lc0, n=1.5)
     
     elem.addMaterial("glass", glass)
     elem.addMaterial("glass2", glass2)
     
     elem.addSurface("object", objectsurf, (None, None))
     elem.addSurface("surf1", surf1, (None, "glass"))
     elem.addSurface("surf2", surf2, ("glass", None))
     elem.addSurface("surf3", surf3, (None, "glass"))
     elem.addSurface("surf4", surf4, ("glass", None))
     elem.addSurface("stop", stopsurf, (None, None))
     elem.addSurface("surf6", surf6, (None, "glass2"))
     elem.addSurface("surf7", surf7, ("glass2", None))
     elem.addSurface("image", image, (None, None))
     
     s.addElement("lenssys", elem)
     
     return s
Esempio n. 2
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lc6 = s.addLocalCoordinateSystem(LocalCoordinates(name="image2", decz=55, tiltx=1*math.pi/32), refname=lc5.name)
lc7 = s.addLocalCoordinateSystem(LocalCoordinates(name="image3", decz=5), refname=lc6.name)

objectsurf = Surface(lc0)
m1surf = Surface(lc1, shape=surfShape.Conic(lc1, curv=-0.01), apert=CircularAperture(lc1, 20.))
m2surf = Surface(lc2, shape=surfShape.Conic(lc2, curv=0.01), apert=CircularAperture(lc2, 12.7))
m3surf = Surface(lc3, shape=surfShape.Conic(lc3, curv=-0.006), apert=CircularAperture(lc3, 12.7))
image1 = Surface(lc4)
oapara = Surface(lc3, shape=surfShape.Conic(lc5, curv=0.01, cc=-1.), apert=CircularAperture(lc5ap, 30.0))
image2 = Surface(lc6, apert=CircularAperture(lc6, 20.0))
image3 = Surface(lc7, apert=CircularAperture(lc7, 20.0))


elem = OpticalElement(lc0, label="TMA")

elem.addMaterial("air", air)

elem.addSurface("object", objectsurf, (None, None))
elem.addSurface("m1", m1surf, (None, None))
elem.addSurface("m2", m2surf, (None, None))
elem.addSurface("m3", m3surf, (None, None))
elem.addSurface("image1", image1, (None, None))
elem.addSurface("oapara", oapara, (None, None))
elem.addSurface("image2", image2, (None, None))
elem.addSurface("image3", image3, (None, None))

s.addElement("TMA", elem)

print(s.rootcoordinatesystem.pprint())

rstobj = raster.MeridionalFan()
Esempio n. 3
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                   apert=CircularAperture(lc2, dropletradius))
frontsurf2 = Surface(lc3,
                     shape=surfShape.Conic(lc3,
                                           curv=-1. / (30 * dropletradius),
                                           cc=0.01),
                     apert=CircularAperture(lc3, dropletradius))

image = Surface(lc4, apert=CircularAperture(lc4, 7. * dropletradius))

elem = OpticalElement(lc0, label="droplet")

glass = ModelGlass(lc1)
glass.calcCoefficientsFrom_nd_vd(1.3236, 55.76)
#glass = material.ConstantIndexGlass(lc1, 1.3236)

elem.addMaterial("glass", glass)

elem.addSurface("stop", stopsurf, (None, None))
elem.addSurface("surf1", frontsurf, (None, "glass"))
elem.addSurface("surf2", rearsurf, ("glass", None))
elem.addSurface("surf3", frontsurf2, ("glass", None))
elem.addSurface("image", image, (None, None))

s.addElement("droplet", elem)

rstobj = raster.MeridionalFan()
(px, py) = rstobj.getGrid(100)

rpup = dropletradius * 0.99
oy = dropletradius * 0.0
o = np.vstack((rpup * px, rpup * py + oy, 0 * np.ones_like(px)))
Esempio n. 4
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#bk7 = material.ConstantIndexGlass(lc1, n=1.5168)
#sf5 = material.ConstantIndexGlass(lc2, n=1.6727)

myeps1 = 1.5168**2*np.eye(3)
myeps2 = 1.6727**2*np.eye(3)

# anisotropic materials

#myeps1 = rnd_data1 + complex(0, 1)*rnd_data2
#myeps2 = rnd_data3 + complex(0, 1)*rnd_data4

crystal1 = AnisotropicMaterial(lc1, myeps1, name="crystal1")
crystal2 = AnisotropicMaterial(lc2, myeps2, name="crystal2")


elem.addMaterial("crystal1", crystal1)
elem.addMaterial("crystal2", crystal2)

elem.addSurface("stop", stopsurf, (None, None))
elem.addSurface("front", frontsurf, (None, "crystal1"))
elem.addSurface("cement", cementsurf, ("crystal1", "crystal2"))
elem.addSurface("rear", rearsurf, ("crystal2", None))
elem.addSurface("image", image, (None, None))

s.addElement("AC254-100", elem)

rstobj = raster.MeridionalFan()
(px, py) = rstobj.getGrid(10)

rpup = 11.43
o = np.vstack((rpup*px, rpup*py, -5.*np.ones_like(px)))
Esempio n. 5
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frontsurf = Surface(lc1,
                    shape=surfShape.Conic(lc1),
                    apert=CircularAperture(lc1, 12.7))
backsurf = Surface(lc2,
                   shape=surfShape.Asphere(lc2,
                                           curv=-1. / 50.0,
                                           cc=-1.,
                                           acoeffs=[0.0, 0.0, 0.0]),
                   apert=CircularAperture(lc2, 12.7))
image = Surface(lc3)

elem = OpticalElement(lc0, label="asphereelement")

bk7 = ConstantIndexGlass(lc1, n=1.5168)

elem.addMaterial("BK7", bk7)

elem.addSurface("stop", stopsurf, (None, None))
elem.addSurface("front", frontsurf, (None, "BK7"))
elem.addSurface("rear", backsurf, ("BK7", None))
elem.addSurface("image", image, (None, None))

s.addElement("asph", elem)

rstobj = raster.MeridionalFan()
(px, py) = rstobj.getGrid(20)

rpup = 11.43
o = np.vstack((rpup * px, rpup * py, -5. * np.ones_like(px)))

k = np.zeros_like(o)
Esempio n. 6
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                               curvy=si * 1. / 108.187,
                               curvx=si * 1. / 73.105,
                               coefficients=[(0., 0.), (-si * 5.542e-7, -0.08),
                                             (-si * 8.176e-11, -1.379)]),
                 apert=CircularAperture(lcS3, 40.0))
D3Psurf = Surface(lcD3prime)
D4surf = Surface(lcD4)
S4surf = Surface(lcS4,
                 shape=Conic(lcS4, curv=1. / 77.772),
                 apert=CircularAperture(lcS4, 40.0))
D4Psurf = Surface(lcD4prime)
imgsurf = Surface(lcimage)

elem = OpticalElement(lc0, name="HUD")

elem.addMaterial("air", air)
elem.addMaterial("glass", glass)

elem.addSurface("object", objsurf, (None, None))
elem.addSurface("d1", D1surf, (None, None))
elem.addSurface("s1", S1surf, (None, "glass"))
elem.addSurface("d1p", D1Psurf, ("glass", "glass"))
elem.addSurface("d2", D2surf, ("glass", "glass"))
elem.addSurface("s2", S2surf, ("glass", "glass"))
elem.addSurface("d2p", D2Psurf, ("glass", "glass"))
elem.addSurface("d3", D3surf, ("glass", "glass"))
elem.addSurface("s3", S1surf, ("glass", "glass"))
elem.addSurface("d3p", D3Psurf, ("glass", "glass"))
elem.addSurface("d4", D4surf, ("glass", "glass"))
elem.addSurface("s4", S4surf, ("glass", None))
elem.addSurface("d4p", D4Psurf, (None, None))
Esempio n. 7
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    gcat = refractiveindex_dot_info_glasscatalog(database_basepath)

    waterdict = gcat.getMaterialDict(shelf, book, page)
    water = CatalogMaterial(lc0, waterdict, name="water (catalogue)")

except:
    logging.warn("refractive index database not found. please download it and symlink\n\
            to it in your local pyrate directory")
    water = ConstantIndexGlass(lc0, n=1.336, name="water (failsafe)")

logging.info("wavelength %f, index %f" % (wave_red, water.getIndex(None, wave_red).real))
logging.info("wavelength %f, index %f" % (wave_blue, water.getIndex(None, wave_blue).real))

elem.addMaterial("water", water)

elem.addSurface("stop", stopsurf, (None, None))
elem.addSurface("surf1", frontsurf, (None, "water"))
elem.addSurface("surf2", rearsurf, ("water", "water"))
elem.addSurface("surf4", frontsurf, ("water", None))
elem.addSurface("image", image, (None, None))

s.addElement("droplet", elem)

rstobj = raster.MeridionalFan()
(px, py) = rstobj.getGrid(11)

rpup = dropletradius*0.05
oy = dropletradius*0.9
o = np.vstack((rpup*px, rpup*py + oy, 0*np.ones_like(px)))
Esempio n. 8
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                    apert=CircularAperture(lc1, 10.0))
rearsurf = Surface(lc2,
                   shape=surfShape.Conic(lc2, curv=0),
                   apert=CircularAperture(lc3, 10.0))
image = Surface(lc3)

elem = OpticalElement(lc0, name="crystalelem")

no = 1.5
neo = 1.8

myeps = np.array([[no, 0, 0], [0, no, 0], [0, 0, neo]])

crystal = AnisotropicMaterial(lc1, myeps)

elem.addMaterial("crystal", crystal)

elem.addSurface("stop", stopsurf, (None, None))
elem.addSurface("front", frontsurf, (None, "crystal"))
elem.addSurface("rear", rearsurf, ("crystal", None))
elem.addSurface("image", image, (None, None))

s.addElement("crystalelem", elem)

rstobj = raster.MeridionalFan()
(px, py) = rstobj.getGrid(10)

rpup = 8.0

phik = 20. * math.pi / 180.0
Esempio n. 9
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def bnd(x):
    return x[0]**2 + x[1]**2 < 10.**2


#grinmaterial = ConstantIndexGlass(lc1, 1.0 + grin_strength)
grinmaterial = IsotropicGrinMaterial(lc1,
                                     nfunc,
                                     dndx,
                                     dndy,
                                     dndz,
                                     bnd,
                                     ds=0.05,
                                     energyviolation=0.01)

elem.addMaterial("grin", grinmaterial)

elem.addSurface("object", stopsurf, (None, None))
elem.addSurface("surf1", surf1, (None, "grin"))
elem.addSurface("surf2", surf2, ("grin", None))
elem.addSurface("image", image, (None, None))

s.addElement("grinelement", elem)

rstobj = raster.MeridionalFan()
(px, py) = rstobj.getGrid(21)

rpup = 2.5
o = np.vstack((rpup * px, rpup * py, -5. * np.ones_like(px)))

k = np.zeros_like(o)