Applied Sciences (Jun 2021)

Light-Induced Ring Pattern in a Dye-Doped Nematic Liquid Crystal

  • Marcel G. Clerc,
  • Gregorio González-Cortés,
  • Paulina I. Hidalgo,
  • Lucciano A. Letelier,
  • Mauricio J. Morel,
  • Jorge Vergara

DOI
https://doi.org/10.3390/app11115285
Journal volume & issue
Vol. 11, no. 11
p. 5285

Abstract

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The use of dye-doped liquid crystals allows the amplification of the coupling of light and liquid crystals. Light can induce the self-organization of the molecular order. The appearance of ring patterns has been observed, which has been associated with phase modulation. However, the morphology and dynamics of the ring patterns are not consistent with self-modulation. Based on an experimental setup with two parallel coherence beams orthogonal to a liquid crystal cell, one of which induces photo-isomerization and the other causes illumination, the formation of ring patterns is studied. To use these two coherent beams, we synthesize methylred methyl ester as a dye-dopant, which is photosensitive only to one of the light beams, and a commercial E7 liquid crystal as a matrix. Based on a mathematical model that accounts for the coupling between the concentration of the cis-state and the order parameter, we elucidate the emergence of the rings as forming patterns in an inhomogeneous medium. The bifurcation diagram is analytically characterized. The emergence, propagation of the rings, and the establishment of the ring patterns are in fair agreement with the experimental observations.

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