def create_surfaces(self, cs): #cs=coordinate Systems surface_objects = [] for i in range(self.surfaces.shape[0]): if (self.get_sufval("shape", i) == "Conic"): #hier noch cc einfuegen shape_ = Conic.p(cs[i], cc=float(self.get_sufval("conic", i)), curv=float(self.get_sufval("curvature", i))) #print(self.get_sufval("curvature",i)) else: shape_ = None if (self.get_sufval("aperture", i) == "Circular"): aperture_ = CircularAperture( cs[i], minradius=float(self.get_sufval("minrad", i)), maxradius=float(self.get_sufval("maxrad", i))) #print(float(self.get_sufval("maxrad",i)).__class__.__name__) else: aperture_ = None self.SurfNameList.append(self.get_sufval("name", i)) surface_objects.append( Surface.p(cs[i], shape=shape_, aperture=aperture_)) return surface_objects
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=Conic(lc1, curv=1/-5.922)) surf2 = Surface(lc2, shape=Conic(lc2, curv=1/-3.160)) surf3 = Surface(lc3, shape=Conic(lc3, curv=1/15.884)) surf4 = Surface(lc4, shape=Conic(lc4, curv=1/-12.756)) stopsurf = Surface(lc5) surf6 = Surface(lc6, shape=Conic(lc6, curv=1/3.125)) surf7 = Surface(lc7, shape=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
def create(): from pyrateoptics.raytracer.surface_shape import Conic from pyrateoptics.raytracer.surface import Surface from pyrateoptics.raytracer.aperture import CircularAperture lc = LocalCoordinates.p(name="----LCglobal----") lc2 = LocalCoordinates.p(name="----LCap----", tiltx=0.1, decx=0.2) lc3 = LocalCoordinates.p(name="----LCsh----", tiltx=-0.1, decx=-0.2) lc.addChild(lc2) lc.addChild(lc3) ap = CircularAperture.p(lc2) sh = Conic.p(lc3, curv=0.01, cc=-1) su = Surface.p(lc, sh, ap, name="mysurface") return su
lc0 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="stop", decz=1.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf1", decz=10.0), refname=lc0.name) lc2 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf2", decz=5.0, tiltx=10 * math.pi / 180.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="image", decz=-5.0, tiltx=-10 * math.pi / 180.0), refname=lc2.name) stopsurf = Surface.p(lc0) frontsurf = Surface.p(lc1, shape=Conic.p(lc1, curv=0), aperture=CircularAperture.p(lc1, maxradius=10.0)) rearsurf = Surface.p(lc2, shape=Conic.p(lc2, curv=0), aperture=CircularAperture.p(lc3, maxradius=10.0)) image = Surface.p(lc3) elem = OpticalElement.p(lc0, name="crystalelem") no = 1.5 neo = 1.8 myeps = np.array([[no, 0, 0], [0, no, 0], [0, 0, neo]])
lc3 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf3", decz=5.0, tiltx=2.5 * degree), refname=lc2.name) lc4 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf4", decz=3.0), refname=lc3.name) lc5 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf5", decz=3.0), refname=lc4.name) lc6 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf6", decz=2.0), refname=lc5.name) lc7 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf7", decz=3.0), refname=lc6.name) lc8 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="image", decz=19.0), refname=lc7.name) objectsurf = Surface.p(lc0) surf1 = Surface.p(lc1, shape=Conic.p(lc1, curv=1 / -5.922)) surf2 = Surface.p(lc2, shape=Conic.p(lc2, curv=1 / -3.160)) surf3 = Surface.p(lc3, shape=Conic.p(lc3, curv=1 / 15.884)) surf4 = Surface.p(lc4, shape=Conic.p(lc4, curv=1 / -12.756)) stopsurf = Surface.p(lc5) surf6 = Surface.p(lc6, shape=Conic.p(lc6, curv=1 / 3.125)) surf7 = Surface.p(lc7, shape=Conic.p(lc7, curv=0.1 * 1 / 1.479)) image = Surface.p(lc8) elem = OpticalElement.p(lc0, name="lenssystem") glass = ConstantIndexGlass.p(lc0, n=1.7) glass2 = ConstantIndexGlass.p(lc0, n=1.5) elem.addMaterial("glass", glass)
# definition of optical system s = OpticalSystem(name='os') lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="stop", decz=0.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=-1.048), refname=lc0.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=4.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf3", decz=2.5), refname=lc2.name) lc4 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=97.2), refname=lc3.name) stopsurf = Surface(lc0, name="stopsurf") frontsurf = Surface(lc1, name="frontsurf", shape=Conic(lc1, curv=1. / 62.8, name='conic1'), aperture=CircularAperture(lc1, maxradius=12.7)) cementsurf = Surface(lc2, name="cementsurf", shape=Conic(lc2, curv=-1. / 45.7, name='conic2'), aperture=CircularAperture(lc2, maxradius=12.7)) rearsurf = Surface(lc3, name="rearsurf", shape=Conic(lc3, curv=-1. / 128.2, name='conic3'), aperture=CircularAperture(lc3, maxradius=12.7)) image = Surface(lc4, name="imagesurf") elem = OpticalElement(lc0, name="thorlabs_AC_254-100-A")
wave_blue = 0.470e-3 # definition of optical system s = OpticalSystem() deg = math.pi/180. lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="stop", decz=0.0), refname=s.rootcoordinatesystem.name) lccomprism = s.addLocalCoordinateSystem(LocalCoordinates(name="prismcenter", decz=50.0), refname=lc0.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=-10.0, tiltx=30.*deg), refname=lccomprism.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=10.0, tiltx=-30.*deg), refname=lccomprism.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=50.0), refname=lccomprism.name) stopsurf = Surface(lc0) frontsurf = Surface(lc1, shape=surfShape.Conic(lc1, curv=0), apert=CircularAperture(lc1, 20.0)) rearsurf = Surface(lc2, shape=surfShape.Conic(lc2, curv=0), apert=CircularAperture(lc2, 20.0)) image = Surface(lc3) elem = OpticalElement(lc0, name="prism") glass = ModelGlass(lc1) elem.addMaterial("glass", glass) elem.addSurface("stop", stopsurf, (None, None)) elem.addSurface("surf1", frontsurf, (None, "glass")) elem.addSurface("surf2", rearsurf, ("glass", None))
s = OpticalSystem() lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="obj", decz=0.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=10.0, tiltx=5. * math.pi / 180.0), refname=lc0.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=20.0, tiltx=10. * math.pi / 180.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=10.0), refname=lc2.name) stopsurf = Surface(lc0) surf1 = Surface(lc1, shape=Conic(lc1, curv=1. / 24.0), aperture=CircularAperture(lc1, maxradius=5.0)) surf2 = Surface(lc2, shape=Conic(lc2, curv=-1. / 24.0), aperture=CircularAperture(lc2, maxradius=5.0)) image = Surface(lc3) elem = OpticalElement(lc0, name="grinelement") grin_strength = 0.5 def nfunc(x, **kw): """
lc5 = s.addLocalCoordinateSystem(LocalCoordinates(name="oapara", decz=-100, decy=-35), refname=lc4.name) lc5ap = s.addLocalCoordinateSystem(LocalCoordinates(name="oaparaap", decz=0, decy=35), refname=lc5.name) 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))
# definition of optical system s = OpticalSystem() dropletradius = 0.1 lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="stop", decz=0.0), refname=s.rootcoordinatesystem.name) lccomprism = s.addLocalCoordinateSystem(LocalCoordinates(name="dropletcenter", decz=2.*dropletradius), refname=lc0.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=-dropletradius), refname=lccomprism.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=dropletradius), refname=lccomprism.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf3", decz=0), refname=lccomprism.name) lc4 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=-2.*dropletradius), refname=lccomprism.name) stopsurf = Surface(lc0, apert=CircularAperture(lc0, 7*dropletradius)) frontsurf = Surface(lc1, shape=Asphere(lc1, curv=1./dropletradius), apert=CircularAperture(lc1, dropletradius)) rearsurf = Surface(lc2, shape=Asphere(lc2, curv=-1./dropletradius), apert=CircularAperture(lc2, dropletradius)) midsurf = Surface(lc3, shape=Asphere(lc3, curv=0), apert=CircularAperture(lc3, dropletradius)) image = Surface(lc4, apert=CircularAperture(lc4, 7.*dropletradius)) elem = OpticalElement(lc0, name="droplet") try: database_basepath = "refractiveindex.info-database/database" shelf = "3d" book = "liquids"
s = OpticalSystem() lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="obj", decz=0.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=10.0, tiltx=5. * math.pi / 180.0), refname=lc0.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=20.0, tiltx=10. * math.pi / 180.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=10.0), refname=lc2.name) stopsurf = Surface(lc0) surf1 = Surface(lc1, shape=surfShape.Conic(lc1, curv=1. / 24.0), apert=CircularAperture(lc1, 5.0)) surf2 = Surface(lc2, shape=surfShape.Conic(lc2, curv=-1. / 24.0), apert=CircularAperture(lc2, 5.0)) image = Surface(lc3) elem = OpticalElement(lc0, name="grinelement") grin_strength = 0.5 def nfunc(x): return grin_strength * np.exp(
lcD4prime = s.addLocalCoordinateSystem(LocalCoordinates.p( name="D4prime", decy=-23.067, decz=36.667, tiltx=-si * 50.668 * degree, tiltThenDecenter=False), refname=lc0.name) lcimage = s.addLocalCoordinateSystem(LocalCoordinates.p( name="image", decy=-30.892, decz=43.083, tiltx=-si * 50.668 * degree, tiltThenDecenter=False), refname=lc0.name) objsurf = Surface.p(lc0) D1surf = Surface.p(lcD1) S1surf = Surface.p(lcS1, shape=Biconic.p(lcS1, 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)]), aperture=CircularAperture.p(lcS1, maxradius=40.0)) D1Psurf = Surface.p(lcD1prime) D2surf = Surface.p(lcD2) S2surf = Surface.p(lcS2, shape=Biconic.p(lcS2, curvy=si * 1. / 69.871, curvx=si * 1. / 60.374,
def initDemoSystem(self): s = OpticalSystem.p() lc0 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="object", decz=0.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf1", decz=2.0), refname=lc0.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf2", decz=3.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf3", decz=5.0, tiltx=0.0 * math.pi / 180.0), refname=lc2.name) lc4 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf4", decz=3.0), refname=lc3.name) lc5 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf5", decz=3.0), refname=lc4.name) lc6 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf6", decz=2.0), refname=lc5.name) lc7 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf7", decz=3.0), refname=lc6.name) lc8 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="image", decz=19.0), refname=lc7.name) objectsurf = Surface.p(lc0) surf1 = Surface.p(lc1, shape=Conic.p(lc1, curv=1 / -5.922), aperture=CircularAperture.p(lc1, maxradius=10.0)) surf2 = Surface.p(lc2, shape=Conic.p(lc2, curv=1 / -3.160), aperture=CircularAperture.p(lc2, maxradius=10.0)) surf3 = Surface.p(lc3, shape=Conic.p(lc3, curv=1 / 15.884), aperture=CircularAperture.p(lc3, maxradius=10.0)) surf4 = Surface.p(lc4, shape=Conic.p(lc4, curv=1 / -12.756), aperture=CircularAperture.p(lc4, maxradius=10.0)) stopsurf = Surface.p(lc5, aperture=CircularAperture.p(lc5, maxradius=10.0)) surf6 = Surface.p(lc6, shape=Conic.p(lc6, curv=1 / 3.125), aperture=CircularAperture.p(lc6, maxradius=10.0)) surf7 = Surface.p(lc7, shape=Conic.p(lc7, curv=1 / 1.479), aperture=CircularAperture.p(lc7, maxradius=10.0)) image = Surface.p(lc8) elem = OpticalElement.p(lc0, name="lenssystem") glass = material_isotropic.ConstantIndexGlass.p(lc0, n=1.7) glass2 = material_isotropic.ConstantIndexGlass.p(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)) for mysurf in elem.surfaces.values(): print(mysurf.aperture.annotations) s.addElement("lenssys", elem) return s
import logging logging.basicConfig(level=logging.DEBUG) wavelength = 0.5876e-3 # definition of optical system s = OpticalSystem() lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="stop", decz=0.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=-1.048), refname=lc0.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=4.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf3", decz=2.5), refname=lc2.name) lc4 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=97.2), refname=lc3.name) stopsurf = Surface(lc0) frontsurf = Surface(lc1, shape=surfShape.Conic(lc1, curv=1./62.8), apert=CircularAperture(lc1, 12.7)) cementsurf = Surface(lc2, shape=surfShape.Conic(lc2, curv=-1./45.7), apert=CircularAperture(lc2, 12.7)) rearsurf = Surface(lc3, shape=surfShape.Conic(lc3, curv=-1./128.2), apert=CircularAperture(lc3, 12.7)) image = Surface(lc4) elem = OpticalElement(lc0, name="thorlabs_AC_254-100-A") bk7 = ConstantIndexGlass(lc1, n=1.5168) sf5 = ConstantIndexGlass(lc2, n=1.6727) elem.addMaterial("BK7", bk7) elem.addMaterial("SF5", sf5) elem.addSurface("stop", stopsurf, (None, None))
lc4 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="image1", decz=-50, decy=-15, tiltx=-math.pi/16), refname=lc3.name) lc5 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="oapara", decz=-100, decy=-35), refname=lc4.name) lc5ap = s.addLocalCoordinateSystem( LocalCoordinates.p(name="oaparaap", decz=0, decy=35), refname=lc5.name) lc6 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="image2", decz=52.8, tiltx=1*math.pi/32), refname=lc5.name) lc7 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="image3", decz=5), refname=lc6.name) objectsurf = Surface.p(lc0) m1surf = Surface.p(lc1, shape=Conic.p(lc1, curv=-0.01)) m2surf = Surface.p(lc2, shape=Conic.p(lc2, curv=0.01)) m3surf = Surface.p(lc3, shape=Conic.p(lc3, curv=-0.006)) image1 = Surface.p(lc4) oapara = Surface.p(lc3, shape=Conic.p(lc5, curv=0.01, cc=-1.)) image2 = Surface.p(lc6, aperture=CircularAperture.p(lc6, maxradius=20.0)) image3 = Surface.p(lc7, aperture=CircularAperture.p(lc7, maxradius=20.0)) elem = OpticalElement.p(lc0, name="TMA") elem.addMaterial("air", air) elem.addSurface("object", objectsurf, (None, None)) elem.addSurface("m1", m1surf, (None, None))
tiltx=-math.pi / 16), refname=lc3.name) lc5 = s.addLocalCoordinateSystem(LocalCoordinates(name="oapara", decz=-100, decy=-35), refname=lc4.name) lc5ap = s.addLocalCoordinateSystem(LocalCoordinates(name="oaparaap", decz=0, decy=35), refname=lc5.name) lc6 = s.addLocalCoordinateSystem(LocalCoordinates(name="image2", decz=55, tiltx=1 * math.pi / 32), refname=lc5.name) objectsurf = Surface(lc0) m1surf = Surface(lc1, shape=Conic(lc1, curv=-0.01), aperture=CircularAperture(lc1, maxradius=20.)) m2surf = Surface(lc2, shape=Conic(lc2, curv=0.01), aperture=CircularAperture(lc2, maxradius=12.7)) m3surf = Surface(lc3, shape=Conic(lc3, curv=-0.006), aperture=CircularAperture(lc3, maxradius=20.7)) image1 = Surface(lc4) oapara = Surface(lc3, shape=Conic(lc5, curv=0.01, cc=-1.), aperture=CircularAperture(lc5ap, maxradius=30.0)) image2 = Surface(lc6, aperture=CircularAperture(lc6, maxradius=20.0))
lc1 = s.addLocalCoordinateSystem(LocalCoordinates.p(name="surf1", decz=-dropletradius), refname=lccomprism.name) # objectDist lc2 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="surf2", decz=dropletradius), refname=lccomprism.name) lc3 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="surf3", decz=0), refname=lccomprism.name) lc4 = s.addLocalCoordinateSystem( LocalCoordinates.p(name="image", decz=-2.*dropletradius), refname=lccomprism.name) stopsurf = Surface.p(lc0, aperture=CircularAperture.p(lc0, maxradius=7*dropletradius)) frontsurf = Surface.p(lc1, shape=Asphere.p(lc1, curv=1./dropletradius), aperture=CircularAperture.p(lc1, maxradius=dropletradius)) rearsurf = Surface.p(lc2, shape=Asphere.p(lc2, curv=-1./dropletradius), aperture=CircularAperture.p(lc2, maxradius=dropletradius)) midsurf = Surface.p(lc3, shape=Asphere.p(lc3, curv=0), aperture=CircularAperture.p(lc3, maxradius=dropletradius)) image = Surface.p(lc4, aperture=CircularAperture.p(lc4, maxradius=7.*dropletradius)) elem = OpticalElement.p(lc0, name="droplet") database_basepath = "refractiveindex.info-database/database"
# definition of optical system s = OpticalSystem() lc0 = s.addLocalCoordinateSystem(LocalCoordinates(name="stop", decz=0.0), refname=s.rootcoordinatesystem.name) lc1 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf1", decz=-1.048), refname=lc0.name) # objectDist lc2 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf2", decz=4.0), refname=lc1.name) lc3 = s.addLocalCoordinateSystem(LocalCoordinates(name="surf3", decz=2.5), refname=lc2.name) lc4 = s.addLocalCoordinateSystem(LocalCoordinates(name="image", decz=97.2), refname=lc3.name) stopsurf = Surface(lc0) frontsurf = Surface(lc1, shape=Conic(lc1, curv=1. / 62.8), aperture=CircularAperture(lc1, maxradius=12.7)) cementsurf = Surface(lc2, shape=Conic(lc2, curv=-1. / 45.7), aperture=CircularAperture(lc2, maxradius=12.7)) rearsurf = Surface(lc3, shape=Conic(lc3, curv=-1. / 128.2), aperture=CircularAperture(lc3, maxradius=12.7)) image = Surface(lc4) elem = OpticalElement(lc0, name="thorlabs_AC_254-100-A") bk7 = ConstantIndexGlass(lc1, n=1.5168) sf5 = ConstantIndexGlass(lc2, n=1.6727)