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Wrocław University of Science and Technology

(Politechnika Wrocławska)

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Experimental and numerical investigation of coiling-induced effects in an antiresonant hollow-core fiber for compact mid-infrared gas absorption cells

Version 1.0

Bojęś, Piotr, 2026, "Experimental and numerical investigation of coiling-induced effects in an antiresonant hollow-core fiber for compact mid-infrared gas absorption cells", https://doi.org/10.18150/HJLS3U, RepOD, V1

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Description

The following files include data presented in the manuscript “Experimental and numerical investigation of coiling-induced effects in an antiresonant hollow-core fiber for compact mid-infrared gas absorption cells,” written by Piotr Bojęś, Piotr Jaworski, Dakun Wu, Karol Krzempek, Grzegorz Soboń and and Fei Yu.

Figure 2. Average power of the ARHCF-delivered mid-IR OFC registered for different coiling radii of the fiber andcalculated average coiling-induced loss in the ARHCF for different coiling radii of the fiber.

Figure 3. Average power of the ARHCF-delivered mid-IR OFC registered for different coiling radii of the fiber and calculated average coiling-induced loss for different coiling radii of the fiber.

Figure 5. Coiling-induced loss for each considered coiling radius of the ARHCF within the 3100 - 3400 nm bandwidth.

Figure 6. Coiling-induced loss in the ARHCF over 3100 - 3400 nm bandwidth obtained from COMSOL numerical simulations.

Figure 7. Comparison of the average coiling-induced loss for simulations and measurements in 3100 – 3400 nm band.

Figure 8. Upper plot: absorption spectrum of 15 ppmv CH₄ measured in the 25.1 m ARHCF coiled with 118 mm coiling radii, plotted against the reference transmission spectrum of the ARHCF filled with pure N₂. Lower plot: HITRAN-based simulations of the absorption spectrum of 15 ppmv CH₄ at 790 Torr pressure within 25.1 m optical path length.

Figure 9. Upper plot: absorption spectrum of 15 ppmv CH₄ measured in the 25.1 m ARHCF coiled with 98 mm coiling radii, plotted against the reference transmission spectrum of the ARHCF filled with pure N₂. Lower plot: HITRAN-based simulations of the absorption spectrum of 15 ppmv CH₄ at 790 Torr pressure within 25.1 m optical path length.

(2026-04)

Subject

Engineering; Physics

Keyword

antiresonant hollow-core fiber, laser gas spectroscopy, fiber sensors

License

CC BY - Creative Commons Attribution 4.0

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