How to use the raytracing.abcd.GaussianBeam function in raytracing

To help you get started, we’ve selected a few raytracing examples, based on popular ways it is used in public projects.

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github DCC-Lab / RayTracing / raytracing / abcd.py View on Github external
def eigenModes(self):
        """
        Returns the two complex radii that are identical after a
        round trip, assuming the matrix of the LaserPath() is one
        round trip: you will need to duplicate elements in reverse
        and append them manually. 
        """
        b = self.D - self.A
        sqrtDelta = cmath.sqrt(b*b + 4.0 *self.B *self.C)
        
        q1 = (- b + sqrtDelta)/(2.0*self.C)
        q2 = (- b - sqrtDelta)/(2.0*self.C)

        return (GaussianBeam(q=q1), GaussianBeam(q=q2))
github DCC-Lab / RayTracing / raytracing / abcd.py View on Github external
def __mul__(self, rightSide):
        """Operator overloading allowing easy to read matrix multiplication

        For instance, with M1 = Matrix() and M2 = Matrix(), one can write
        M3 = M1*M2. With r = Ray(), one can apply the M1 transform to a ray
        with r = M1*r

        """
        if isinstance(rightSide, Matrix):
            return self.mul_matrix(rightSide)
        elif isinstance(rightSide, Ray):
            return self.mul_ray(rightSide)
        elif isinstance(rightSide, GaussianBeam):
            return self.mul_beam(rightSide)
        else:
            raise TypeError(
                "Unrecognized right side element in multiply: '{0}'\
                 cannot be multiplied by a Matrix".format(rightSide))
github DCC-Lab / RayTracing / raytracing / abcd.py View on Github external
def mul_beam(self, rightSideBeam):
        """ Multiplication of a coherent beam with complex radius
        of curvature q by a matrix.

        """
        q = rightSideBeam.q
        if rightSideBeam.n != self.frontIndex:
            print("Warning: the gaussian beam is not tracking the index of refraction properly")

        qprime = (complex(self.A) * q + complex(self.B) ) / (complex(self.C)*q + complex(self.D))
        
        outputBeam = GaussianBeam(q=qprime, wavelength=rightSideBeam.wavelength)
        outputBeam.z = self.L + rightSideBeam.z
        outputBeam.n = self.backIndex

        if abs(outputBeam.w) > self.apertureDiameter / 2:
            outputBeam.isClipped = True
        else:
            outputBeam.isClipped = rightSideBeam.isClipped

        return outputBeam

raytracing

Simple optical ray tracing library to validate the design of an optical system (lenses positions and sizes, focal lengths, aperture and field stops). Support for Monte Carlo raytracing to estimate transmission efficiency and powers, limited but functional Zemax file loader for lenses, several material dispersion curves included for chromatic aberrations all coming from http://refractiveindex.info

MIT
Latest version published 4 months ago

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