Numerical methods for light propagation in large LC cells: a new approach |
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Authors: | D. Olivero C. Oldano |
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Affiliation: | Physics Department and INFM, Politecnico di Torino, 24 Corso Duca degli Abruzzi, 10129 Torino, Italy |
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Abstract: | Accurate numerical methods for the propagation of light in large 3D samples with strong lateral variation of the director field require prohibitive amounts of time. We consider and compare a standard spectral method and the Finite Difference in Frequency Domain method, showing that the CPU time can be reduced by one or two orders of magnitude using a perturbation approach or a recently developed Reduced Order Method. The equations obtained are applied to liquid crystal cells with in-plane switching, illuminated by a large incoherent source. The developed formalism, based on numerically exact equations, is particularly suitable for treating magnetic or optically active media and for extending to such media the well known approximations based on the 4 × 4 (Berreman) or 2 × 2 (Jones) matrices. |
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Keywords: | polyimide hyperbranched polyimide pretilt angle alignment layer |
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