Optical function of the finite-thickness corrugated pellicle of euglenoids

Marina E. Inchaussandague; Diana C. Skigin; Andrés E. Dolinko

doi:10.1364/AO.56.005112

Applied Optics
Vol. 56,
Issue 18,
pp. 5112-5120
(2017)
•https://doi.org/10.1364/AO.56.005112

Optical function of the finite-thickness corrugated pellicle of euglenoids

Marina E. Inchaussandague, Diana C. Skigin, and Andrés E. Dolinko

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Marina E. Inchaussandague, Diana C. Skigin, and Andrés E. Dolinko, "Optical function of the finite-thickness corrugated pellicle of euglenoids," Appl. Opt. 56, 5112-5120 (2017)

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Abstract

We explore the electromagnetic response of the pellicle of selected species of euglenoids. These microorganisms are bounded by a typical surface pellicle formed by S-shaped overlapping bands that resemble a corrugated film. We investigate the role played by this structure in the protection of the cell against UV radiation. By considering the pellicle as a periodically corrugated film of finite thickness, we applied the C-method to compute the reflectance spectra. The far-field results revealed reflectance peaks with a $Q$ -factor larger than $10^{3}$ in the UV region for all the illumination conditions investigated. The resonant behavior responsible for this enhancement has also been illustrated by near-field computations performed by a photonic simulation method. These results confirm that the corrugated pellicle of euglenoids shields the cell from harmful UV radiation and open up new possibilities for the design of highly UV-reflective surfaces.

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Applied Optics