single mode operation
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2021 ◽  
Vol 29 (21) ◽  
pp. 33864
Author(s):  
Tianfang Wang ◽  
Chengao Yang ◽  
Yi Zhang ◽  
Yihang Chen ◽  
Jinming Shang ◽  
...  

2021 ◽  
Author(s):  
Ahmed Hassan ◽  
Xiadong Gu ◽  
Masanori Nakahama ◽  
Satoshi Shinada ◽  
Mostafa Ahmed ◽  
...  

OSA Continuum ◽  
2021 ◽  
Author(s):  
Tanmoy Pandey ◽  
Md. Farhamdur Reza ◽  
Alok Kumar Paul

Author(s):  
SHANTING HU ◽  
Ahmed Hassan ◽  
Xiaodong Gu ◽  
Masanori Nakahama ◽  
Satoshi Shinada ◽  
...  

2021 ◽  
Author(s):  
Zhen Xing ◽  
Xin Wang ◽  
shuqin lou ◽  
Zijuan Tang ◽  
Haoqiang Jia ◽  
...  

2021 ◽  
Vol 10 (1) ◽  
Author(s):  
Foued Amrani ◽  
Jonas H. Osório ◽  
Frédéric Delahaye ◽  
Fabio Giovanardi ◽  
Luca Vincetti ◽  
...  

AbstractRemarkable recent demonstrations of ultra-low-loss inhibited-coupling (IC) hollow-core photonic-crystal fibres (HCPCFs) established them as serious candidates for next-generation long-haul fibre optics systems. A hindrance to this prospect and also to short-haul applications such as micromachining, where stable and high-quality beam delivery is needed, is the difficulty in designing and fabricating an IC-guiding fibre that combines ultra-low loss, truly robust single-modeness, and polarisation-maintaining operation. The design solutions proposed to date require a trade-off between low loss and truly single-modeness. Here, we propose a novel IC-HCPCF for achieving low-loss and effective single-mode operation. The fibre is endowed with a hybrid cladding composed of a Kagome-tubular lattice (HKT). This new concept of a microstructured cladding allows us to significantly reduce the confinement loss and, at the same time, preserve truly robust single-mode operation. Experimental results show an HKT-IC-HCPCF with a minimum loss of 1.6 dB/km at 1050 nm and a higher-order mode extinction ratio as high as 47.0 dB for a 10 m long fibre. The robustness of the fibre single-modeness is tested by moving the fibre and varying the coupling conditions. The design proposed herein opens a new route for the development of HCPCFs that combine robust ultra-low-loss transmission and single-mode beam delivery and provides new insight into IC guidance.


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