Opportunities and challenges for long-distance transmission in hollow-core fibres
P Poggiolini, F Poletti - Journal of Lightwave Technology, 2022 - opg.optica.org
The loss of hollow-core Nested Antiresonant Nodeless Fiber (NANF) has been steadily
decreasing lately, approaching that of standard Single-Mode Fiber (SMF). As for non-linear …
decreasing lately, approaching that of standard Single-Mode Fiber (SMF). As for non-linear …
Hollow core NANFs with five nested tubes and record low loss at 850, 1060, 1300 and 1625nm
Hollow Core NANFs with Five Nested Tubes and Record Low Loss at 850, 1060, 1300 and
1625nm Page 1 Hollow Core NANFs with Five Nested Tubes and Record Low Loss at 850 …
1625nm Page 1 Hollow Core NANFs with Five Nested Tubes and Record Low Loss at 850 …
Highly Birefringent Anti‐Resonant Hollow‐Core Fiber with a Bi‐Thickness Fourfold Semi‐Tube Structure
The optical performance characteristics of anti‐resonant hollow‐core fibers (known as AR‐
HCFs or ARFs) are improving rapidly, but the polarization maintaining issue with these fibers …
HCFs or ARFs) are improving rapidly, but the polarization maintaining issue with these fibers …
2.2 kW single-mode narrow-linewidth laser delivery through a hollow-core fiber
Antiresonant hollow-core fibers (AR-HCFs) have opened up exciting possibilities for high-
energy and high-power laser delivery because of their exceptionally low nonlinearities and …
energy and high-power laser delivery because of their exceptionally low nonlinearities and …
Hollow-core optical fibers for telecommunications and data transmission
K Borzycki, T Osuch - Applied Sciences, 2023 - mdpi.com
Hollow-core optical fibers (HCFs) have unique properties like low latency, negligible optical
nonlinearity, wide low-loss spectrum, up to 2100 nm, the ability to carry high power, and …
nonlinearity, wide low-loss spectrum, up to 2100 nm, the ability to carry high power, and …
Ultralow-loss fusion splicing between negative curvature hollow-core fibers and conventional SMFs with a reverse-tapering method
Negative curvature hollow-core fibers (NC-HCFs) can boost the excellent performance of
HCFs in terms of propagation loss, nonlinearity, and latency, while retaining large core and …
HCFs in terms of propagation loss, nonlinearity, and latency, while retaining large core and …
[HTML][HTML] Non-destructive and distributed measurement of optical fiber diameter with nanometer resolution based on coherent forward stimulated Brillouin scattering
Z Hua, D Ba, D Zhou, Y Li, Y Wang, X Bao… - Light: Advanced …, 2021 - light-am.com
Precise control and measurement of the optical fiber diameter are vital for a range of fields,
such as ultra-high sensitivity sensing and high-speed optical communication. Nowadays, the …
such as ultra-high sensitivity sensing and high-speed optical communication. Nowadays, the …
Limits and prospects for long-baseline optical fiber interferometry
C Hilweg, D Shadmany, P Walther, N Mavalvala… - arXiv preprint arXiv …, 2022 - arxiv.org
Today's most precise optical instruments--gravitational-wave interferometers and optical
atomic clocks--rely on long storage times for photons to realize their exquisite sensitivity …
atomic clocks--rely on long storage times for photons to realize their exquisite sensitivity …
Optical time domain backscattering of antiresonant hollow core fibers
Today's lowest-loss hollow core fibers are based on antiresonance guidance. They have
been shown both theoretically and experimentally to have very low levels of backscattering …
been shown both theoretically and experimentally to have very low levels of backscattering …
Stable Optical Frequency Comb Distribution Enabled by Hollow‐Core Fibers
Over the last two decades, optical frequency combs (OFCs) have enabled some of the most
accurate measurements in physics. Distributing light from OFCs via optical fibers could make …
accurate measurements in physics. Distributing light from OFCs via optical fibers could make …