Thermo-optics of gilded hollow-core fibers

Denis S. Kolchanov, Andrey Machnev, Alexandra Blank, Hani Barhom, Liangquan Zhu, Qijing Lin, Alexandra Inberg, Kristina R. Rusimova, Mariia A. Mikhailova, Alexander Gumennik, Toms Salgals, Vjačeslavs Bobrovs, Ventsislav K. Valev, Peter J. Mosley, Pavel Ginzburg

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Abstract

Hollow core fibers, supporting waveguiding in a void, open a room of opportunities for numerous applications owing to an extended light-matter interaction distance and relatively high optical confinement. Decorating an inner capillary with functional materials allows tailoring the fiber's optical properties further and turns the structure into a functional device. Here, we functionalize an anti-resonant hollow-core fiber with 18 nm-size gold nanoparticles, approaching a uniform 45% surface coverage along 10 s of centimeters along its inner capillary. Owing to a moderately low overlap between the fundamental mode and the gold layer, the fiber maintains its high transmission properties; nevertheless, the entire structure experiences considerable heating, which is observed and quantified with the aid of a thermal camera. The hollow core and the surrounding capillary are subsequently filled with ethanol and thermo-optical heating is demonstrated. We also show that at moderate laser intensities, the liquid inside the fiber begins to boil and, as a result, the optical guiding is destroyed. The gilded hollow core fiber and its high thermal-optical responsivity suggest considering the structure as an efficient optically driven catalytic reactor in applications where either small reaction volumes or remote control over a process are demanded.

Original languageEnglish
Pages (from-to)13945-13952
Number of pages8
JournalNanoscale
Volume16
Issue number29
Early online date13 Jun 2024
DOIs
Publication statusPublished - 7 Aug 2024

Funding

The TAU team was supported by ERC StG \u2018In Motion\u2019 (802279). The team acknowledges QuanTAU \u2013 Center for Quantum Science and Technology equipment grant, and research was supported by the RRF project Latvian Quantum Technologies Initiative Nr. 2.3.1.1.i.0/1/22/I/CFLA/001.

FundersFunder number
ERC802279
RRF2.3.1.1, 0/1/22/I/CFLA/001

    ASJC Scopus subject areas

    • General Materials Science

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