Light guidance in photonic band gap guiding dual-ring light cages implemented by direct laser writing

Bumjoon Jang; Julian Gargiulo; Ron Fatobene Ando; Alberto Lauri; Stefan A. Maier; Stefan A. Maier; Markus A. Schmidt; Markus A. Schmidt

doi:10.1364/OL.44.004016

Optics Letters
Vol. 44,
Issue 16,
pp. 4016-4019
(2019)
•https://doi.org/10.1364/OL.44.004016

Light guidance in photonic band gap guiding dual-ring light cages implemented by direct laser writing

Bumjoon Jang, Julian Gargiulo, Ron Fatobene Ando, Alberto Lauri, Stefan A. Maier, and Markus A. Schmidt

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Bumjoon Jang, Julian Gargiulo, Ron Fatobene Ando, Alberto Lauri, Stefan A. Maier, and Markus A. Schmidt, "Light guidance in photonic band gap guiding dual-ring light cages implemented by direct laser writing," Opt. Lett. 44, 4016-4019 (2019)

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Abstract

Efficient waveguiding inside low refractive index media is of key importance for a great variety of applications that demand strong light–matter interaction on small geometric footprints. Here, we demonstrate efficient light guidance in single-defect dual-ring light cages over millimeter distances that are integrated on silicon chips via direct laser writing. The cages consist of two rings of high aspect-ratio polymer strands (length 5 mm, aspect ratio $> 1000$ ) hexagonally arranged around a hollow core. Clear-core mode formation via the photonic band gap effect is observed, with the experiments showing pronounced transmission bands with fringe and polarization contrasts of $> 20 dB$ and $> 15 dB$ , respectively. Numerical simulations confirm our experiments and reveal the dual-ring arrangement to be the optimal geometry within the light cage concept. Particularly, the side-wise access to the core regions and the chip integration makes the light cage concept attractive for a great number of fields such as bioanalytics or quantum technology.

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