期刊
OPTICS LETTERS
卷 46, 期 7, 页码 1784-1787出版社
OPTICAL SOC AMER
DOI: 10.1364/OL.421104
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资金
- Wolfson Foundation [22069]
- Horizon 2020 Framework Programme (H2020-MSCA-COFUND) [713694]
- Engineering and Physical Sciences Research Council [EP/P006183/1]
- EPSRC [EP/P006183/1] Funding Source: UKRI
A simple lithographic method for fabricating microresonator devices at the optical fiber surface is presented. By using a CO2 laser to remove the polymer coating and etching the fiber in hydrofluoric acid solution, a chain of silica bottle microresonators with nanoscale radius variation is created. The method allows for larger fiber radius variation compared to previous approaches in SNAP technology.
We present a simple lithographic method for fabrication of microresonator devices at the optical fiber surface. First, we undress the predetermined surface areas of a fiber segment from the polymer coating with a focused CO2 laser beam. Next, using the remaining coating as a mask, we etch the fiber in a hydrofluoric acid solution. Finally, we completely undress the fiber segment from coating to create a chain of silica bottle microresonators with nanoscale radius variation [surface nanoscale axial photonics (SNAP) microresonators]. We demonstrate the developed method by fabrication of a chain of five 1 mm long and 30 nm high microresonators at the surface of a 125 mu m diameter optical fiber and a single 0.5 mm long and 291 nm high microresonator at the surface of a 38 mu m diameter fiber. As another application, we fabricate a rectangular 5 mm long SNAP microresonator at the surface of a 38 mu m diameter fiber and investigate its performance as a miniature delay line. The propagation of a 100 ps pulse with 1 ns delay, 0.035c velocity, and negligible dispersion is demonstrated. In contrast to previously developed approaches in SNAP technology, the developed method allows the introduction of much larger fiber radius variation ranging from nanoscale to microscale. (C) 2021 Optical Society of America
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