AI Article Synopsis
- The study focuses on measuring resonant spectral bend loss in hollow core anti-resonant optical fibers, which are useful for delivering ultra-short laser pulses in industrial applications.
- The experiments reveal a relationship between bend loss and the diameter of bends, showing that sensitivity to bending depends on the ratio of cladding to core size.
- By reducing the cladding-to-core diameter ratio, researchers were able to significantly decrease the minimum bend diameter from over 160 mm to around 15 mm at an 800 nm wavelength.
Article Abstract
We present the results of measurements of resonant spectral bend loss using a novel apparatus in a series of hollow core anti-resonant optical fibers, important for their applications in the delivery of industrial power ultra-short laser pulses. The measured bend losses exhibit clear wavelength-bend diameter resonances. We demonstrate, in good agreement with theoretical analysis, that the sensitivity to bend diameter (in terms of minimum bend radii) is dependent on the ratio between cladding and core structure size. By decreasing the cladding capillary diameter: core diameter ratio from 0.70 to 0.43 the minimum bend diameter is decreased from >160 mm to ~15 mm at a wavelength of 800 nm. Furthermore it is demonstrated that the exact position of the loss bands is highly dependent on the orientation of the fiber structure with the bend plane.
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| http://dx.doi.org/10.1364/OE.25.020612 | DOI Listing |
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