Skew ray tracing in a step-index optical fiber using Geometric Algebra

We used Geometric Algebra to compute the paths of skew rays in a cylindrical, step-index multimode optical fiber. To do this, we used the vector addition form for the law of propagation, the exponential of an imaginary vector form for the law of refraction, and the juxtaposed vector product form for...

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Bibliographic Details
Published in:arXiv.org 2015-04
Main Authors: Ang, Angeleene, Sugon, Quirino M, McNamara, Daniel J
Format: Article
Language:English
Subjects:
Angles (geometry)
Cylindrical coordinates
Invariants
Mathematical analysis
Numerical aperture
Optical fibers
Ray tracing
Spherical coordinates
Subtraction
Vectors (mathematics)
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Summary:We used Geometric Algebra to compute the paths of skew rays in a cylindrical, step-index multimode optical fiber. To do this, we used the vector addition form for the law of propagation, the exponential of an imaginary vector form for the law of refraction, and the juxtaposed vector product form for the law of reflection. In particular, the exponential forms of the vector rotations enables us to take advantage of the addition or subtraction of exponential arguments of two rotated vectors in the derivation of the ray tracing invariants in cylindrical and spherical coordinates. We showed that the light rays inside the optical fiber trace a polygonal helical path characterized by three invariants that relate successive reflections inside the fiber: the ray path distance, the difference in axial distances, and the difference in the azimuthal angles. We also rederived the known generalized formula for the numerical aperture for skew rays, which simplifies to the standard form for meridional rays.
ISSN:2331-8422
DOI:10.48550/arxiv.1504.02906