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Optical signaling through bio-soft matter is an emerging area of interest for biomedical applications. However, modern communication protocols require high capacity OAM, Polarisation and wavelength multiplexed signaling. Utilizing nonlinear optical effects, we investigate the conservation of polarization and orbital angular momentum through self-trapping and pump/probe coupled waveguides of light in sheep red blood cell suspensions at 532 nm and 780nm wavelengths. This study provides a basis for future exploration for signaling in soft matter systems.
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Nicolas R. Perez, Daryl C. Preece, Anna Bezryadina, "Optical signaling in biological waveguides," Proc. SPIE PC12017, Complex Light and Optical Forces XVI, PC1201707 (9 March 2022); https://doi.org/10.1117/12.2609270