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115 results on '"Harrington, Kerrianne"'

1. Tunable megawatt-scale sub-20 fs visible pulses from a fiber laser source

Author

Sabbah, Mohammed, Mears, Robbie, Murphy, Leah R., Harrington, Kerrianne, Stone, James M., Birks, Tim A., and Travers, John C.

Subjects
Physics - Optics
Abstract

Tunable ultrashort laser pulses across the near-ultraviolet to near-infrared with high peak power are crucial for wide-ranging applications in science and industry. Resonant dispersive-wave emission in gas-filled hollow-core fibers is a well-established technique for generating tunable ultrashort pulses from the vacuum ultraviolet to the near-infrared. However, previous demonstrations have relied on complex and expensive laser systems to provide the necessary energetic ultrashort pump pulses. Recent advances in fiber laser technology, particularly gain-managed nonlinear amplification, offer a promising alternative pump source. In this work, we combine gain-managed nonlinear amplification with resonant dispersive-wave emission to demonstrate a compact and tunable source of sub-20 fs pulses at 4.8 MHz. We achieve a tunable output spanning from 400 nm to beyond 700 nm, with energy up to 39 nJ, pulse duration down to 13 fs, and peak power exceeding 2 MW. This compact and efficient laser source opens new avenues for deploying resonant dispersive-wave-based technologies for broader scientific and industrial applications.

Published
2025

2. Highly multi-mode anti-resonant hollow core fibres

Author

Mears, Robbie, Harrington, Kerrianne, Wadsworth, William J, Stone, James M, and Birks, Tim A

Subjects
Physics - Optics
Abstract

We report the characterisation of anti-resonant hollow core optical fibres guiding at least 50 spatial modes in the infrared. Their propagation losses were measured to be between 0.1 and 0.2 dB/m from 1000 to 1500 nm wavelength, with bend losses of less than 3 dB/turn for bend radii of 7.5 cm despite core radii greater than 60 times the guided wavelengths.

Published
2025

3. Resonance-free deep ultraviolet to near infrared supercontinuum generation in a hollow-core antiresonant fibre

Author

Sabbah, Mohammed, Mears, Robbie, Harrington, Kerrianne, Wadsworth, William J., Stone, James M., Birks, Tim A., and Travers, John C.

Subjects
Physics - Optics
Abstract

Supercontinuum generation in the ultraviolet spectral region is challenging in solid-core optical fibres due to solarization and photodarkening. Antiresonant hollow-core fibres have overcome this limitation and have been shown to guide ultraviolet light at sufficient intensity for ultraviolet spectral broadening through nonlinear optics in the filling gas. However, their ultraviolet guidance is usually limited by discontinuities caused by the presence of high-loss resonance bands. In this paper, we report on resonance-free supercontinuum generation spanning from the deep ultraviolet to the near infrared achieved through modulation instability in an argon-filled antiresonant hollow-core fibre. The fibre was directly fabricated using the stack-and-draw method with a wall thickness of approximately 90 nm, enabling continuous spectral coverage from the deep ultraviolet to the near infrared. We also report numerical simulations to investigate the supercontinuum bandwidth and the factors limiting it, finding that the overall dispersion landscape, and associated group-velocity matching of cross-phase modulation interactions, is the dominant constraint on spectral extension.

Published
2024

4. Multi-core anti-resonant hollow core fibre

Author

Mears, Robbie, Harrington, Kerrianne, Wadsworth, William J, Stone, James M, and Birks, Tim A

Subjects
Physics - Optics
Abstract

We report the fabrication and characterisation of a multi-core anti-resonant hollow core fibre with low inter-core coupling. The optical losses were 0.03 and 0.08 dB/m at 620 and 1000 nm respectively, while the novel structure provides new insights into hollow core fibre design and fabrication.

Published
2024

5. Optical absorption spectrum reveals gaseous chlorine in anti-resonant hollow core fibres

Author

Harrington, Kerrianne, Mears, Robbie, Stone, James M., Wadsworth, William J., Knight, Jonathan C., and Birks, T. A.

Subjects
Physics - Optics
Abstract

We have observed unexpected spectral attenuation of ultraviolet light in freshly drawn hollow core optical fibres. When the fibre ends are left open to atmosphere, this loss feature dissipates over time. The loss matches the absorption spectrum of gaseous (molecular) chlorine and, given enough time, the transmission spectrum of the fibre recovers to that expected from the morphological structure of the fibre. Our measurements indicate an initial chlorine concentration of 0.45 $\mu$ mol/cm$^{3}$ in the hollow core, equivalent to 1.1 mol% Cl$_{2}$ at atmospheric pressure.

Published
2024

6. Microstructured optical fibres for quantum applications: perspective

Author

McGarry, Cameron, Harrington, Kerrianne, Davis, Alex O. C., Mosley, Peter J., and Rusimova, Kristina R.

Subjects
Quantum Physics, Physics - Optics
Abstract

Recent progress in the development and applications of microstructured optical fibres for quantum technologies is summarised. The optical nonlinearity of solid-core and gas-filled hollow-core fibres provides a valuable medium for the generation of quantum resource states, as well as for quantum frequency conversion between the operating wavelengths of existing quantum photonic material architectures. The low loss, low latency and low dispersion of hollow-core fibres make these fibres particularly attractive for both short- and long-distance links in quantum networks. Hollow-core fibres also promise to replace free-space optical components in a wide range of atomic experiments.

Published
2024
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7. Low-loss, compact, fibre-integrated cell for quantum memories

Author

McGarry, Cameron, Harrington, Kerrianne, Goodwin, Daniel J., Perek-Jennings, Charles, Birks, Tim A., Rusimova, Kristina, and Mosley, Peter J.

Subjects
Quantum Physics, Physics - Optics
Abstract

We present a low-loss, compact, hollow core optical fibre (HCF) cell integrated with single mode fibre (SMF). The cell is designed to be filled with atomic vapour and used as a component in photonic quantum technologies, with applications in quantum memory and optical switching. We achieve a total insertion loss of 0.6(2) dB at 780 nm wavelength via graded index fibre to ensure efficient mode matching coupled with anti-reflection coatings to minimise loss at the SMF-HCF interfaces. We also present numerical modelling of these interfaces, which can be undertaken efficiently without the need for finite element simulation. We encapsulate the HCF core by coupling to the SMF inside a support capillary, enhancing durability and facilitating seamless integration into existing fibre platforms.

Published
2024
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8. Guidance of ultraviolet light down to 190 nm in a hollow-core optical fibre

Author

Mears, Robbie, Harrington, Kerrianne, Wadsworth, William J., Knight, Jonathan C., Stone, James M., and Birks, Tim A.

Subjects
Physics - Optics
Abstract

We report an anti-resonant hollow core fibre with ultraviolet transmission down to 190 nm, covering the entire UV-A, UV-B and much of the UV-C band. Guidance from 190 - 400 nm is achieved apart for a narrow high loss resonance band at 245 - 265 nm. The minimum attenuation is 0.13 dB/m at 235 nm and 0.16 dB/m at 325 nm. With an inscribed core diameter of ~ 12 $\mu$m, the fibre's bend loss at 325 nm was 0.22 dB per turn for a bend radius of 3 cm at 325 nm.

Published
2023

9. Controlling and scripting laboratory hardware with open-source, intuitive interfaces: OpenFlexure Voice Control and OpenFlexure Blockly

Author

McDermott, Samuel, Bowman, Richard, Harrington, Kerrianne, Wadsworth, William, and Cicuta, Pietro

Subjects
Physics - Instrumentation and Detectors, Computer Science - Human-Computer Interaction
Abstract

Making user interaction with laboratory equipment more convenient and intuitive should promote experimental work and help researchers to complete their tasks efficiently. The most common form of interaction in current instrumentation is either direct tactile, with buttons and knobs, or interfaced through a computer, using a mouse and keyboard. Scripting is another function typical of smart and automated laboratory equipment, yet users are currently required to learn bespoke programming languages and libraries for individual pieces of equipment. In this paper, we present two open-source, novel and intuitive ways of interacting with and scripting laboratory equipment. We choose the OpenFlexure family of microscopes as our exemplar, due to their open-source nature and smart control system. Firstly, we demonstrate 'OpenFlexure Voice Control' to enable users to control the microscope hands-free. Secondly, we present 'OpenFlexure Blockly' which uses the Blockly Visual Programming Language to enable users to easily create scripts for the microscope, using a drag and drop web interface. We explain the design choices when developing these tools, and discuss more typical use cases and more general applications.

Published
2022
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10. All-fibre wavefront sensor

Author

Wright, Thomas A., Yerolatsitis, Stephanos, Harrington, Kerrianne, Harris, Robert J., and Birks, Tim A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We report on a tapered three-core optical fibre that can be used as a tip-tilt wavefront sensor. In this device, a coupled region of a few millimetres at the sensing tip of the fibre converts fragile phase information from an incoming wavefront into robust intensity information within each of the cores. The intensity information can be easily converted to linear wavefront error over small ranges, making it ideal for closed loop systems. The sensor uses minimal information to infer tip-tilt and is compatible with remote detector arrays. We explore its application within adaptive optics and present a validation case to show its applicability to astronomy., Comment: 7 pages, 6 figures

Published
2022
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11. DV-QKD Coexistence With 1.6 Tbps Classical Channels Over Hollow Core Fibre

Author

Alia, Obada, Tessinari, Rodrigo S, Bahrani, Sima, Bradley, Thomas D, Sakr, Hesham, Harrington, Kerrianne, Hayes, John, Chen, Yong, Petropoulos, Periklis, Richardson, David, Poletti, Francesco, Kanellos, George T, Nejabati, Reja, and Simeonidou, Dimitra

Subjects
Quantum Physics, Electrical Engineering and Systems Science - Systems and Control
Abstract

The feasibility of coexisting a quantum channel with carrier-grade classical optical channels over Hollow Core Nested Antiresonant Nodeless Fibre (HC-NANF) is experimentally explored for the first time in terms of achievable quantum bit error rate (QBER), secret key rate (SKR) as well as classical signal bit error rates (BER). A coexistence transmission of 1.6 Tbps is achieved for the classical channels simultaneously with a quantum channel over a 2 km-long HC-NANF with a total coexistence power of 0 dBm. To find the best and worst wavelength position for the classical channels, we simulated different classical channels bands with different spacing between the quantum and classical channels considering the crosstalk generated from both Raman scattering and four-wave-mixing (FWM) on the quantum channel. Following our simulation, we numerically estimate the best (Raman spectrum dip) and worst locations (Raman spectrum peak) of the classical channel with respect to its impact on the performance on the quantum channel in terms of SKR and QBER. We further implemented a testbed to experimentally test both single mode fibre (SMF) and HC-NANF in the best and worst-case scenarios. In the best-case scenario, the spacing between quantum and classical is 200 GHz (1.6 nm) with 50 GHz (0.4 nm) spacing between each classical channel. The SKR was preserved without any noticeable changes when coexisting the quantum channel with eight classical channels at 0 dBm total coexistence power in HC-NANF compared to a significant drop of 73% when using SMF at -24 dBm total coexistence power which is 250 times lower than the power used in HC-NANF. In the worst-case scenario using the same powers, and with 1 THz (8 nm) spacing between quantum and classical channels, the SKR dropped 10% using the HC-NANF, whereas in the SMF the SKR plummeted to zero.

Published
2022
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12. Focal-ratio-degradation (FRD) mitigation in a multimode fiber link using mode-selective photonic lanterns

Author

Benoît, Aurélien, Yerolatsitis, Stephanos, Harrington, Kerrianne, Birks, Tim A., and Thomson, Robert R.

Subjects
Physics - Optics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We present a new way to mitigate focal-ratio degradation (FRD) when using optical fibers to transport multimode light. Our approach exploits a custom multicore fiber (MCF) with six dissimilar cores that are single mode at ~1550 nm wavelength and minimally coupled over 7 m. We fabricated adiabatic mode-selective photonic lanterns (PLs) at each end of the MCF to create a fiber link with multimode ports, the PLs coupling each spatial mode of the multimode ports to a specific core of the MCF and vice versa. The PL-MCF-PL link exhibits superior FRD behavior compared to a conventional multimode fiber that also supports 6 modes, because it inhibits the transfer of light from lower-order modes to higher-order modes. These results open up a potentially powerful new approach to mitigate FRD in multimode fiber links, with particular applications in astronomical instruments., Comment: 9 pages, 12 figures

Published
2020

14. The OpenFlexure Block Stage: Sub-100 nm fibre alignment with a monolithic plastic flexure stage

Author

Meng, Qingxin, Harrington, Kerrianne, Stirling, Julian, and Bowman, Richard

Subjects
Physics - Instrumentation and Detectors
Abstract

As 3D printers become more widely available, researchers are able to rapidly produce components that may have previously taken weeks to have machined. The resulting plastic components, having high surface roughness, are often not suitable for high-precision optomechanics. However, by playing to the strengths of 3D printing---namely the ability to print complex internal geometries---it is possible to design monolithic mechanisms that do not rely on tight integration of high-precision parts. Here we present a motorised monolithic 3D-printed plastic flexure stage with sub-100 nm resolution, that can perform automated optical fibre alignment.

Published
2019
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15. High fidelity fibre-based physiological sensing deep in tissue

Author

Choudhary, Tushar R., Tanner, Michael G., Megia-Fernandez, Alicia, Harrington, Kerrianne, Wood, Harry A., Marshall, Adam, Zhu, Patricia, Chankeshwara, Sunay V., Choudhury, Debaditya, Monro, Graham, Ucuncu, Muhammed, Yu, Fei, Duncan, Rory R., Thomson, Robert R., Dhaliwal, Kevin, and Bradley, Mark

Subjects
Physics - Medical Physics
Abstract

Physiological sensing deep in tissue, remains a clinical challenge. Here a flexible miniaturised sensing optrode providing a platform to perform minimally invasive in vivo in situ measurements is reported. Silica microspheres covalently coupled with a high density of ratiometrically configured fluorophores were deposited into etched pits on the distal end of a 150 micron diameter multicore optical fibre. With this platform, multiplexed photonic measurements of pH and oxygen concentration with high precision in the distal alveolar space of the lung is reported. We demonstrated the phenomenon that high-density deposition of carboxyfluorescein covalently coupled to silica microspheres shows an inverse shift in fluorescence in response to varying pH. This platform delivered fast and accurate measurements, near instantaneous response time, no photobleaching, immunity to power fluctuations and a flexible architecture for addition of multiple sensors.

Published
2018

16. Manipulation of mode coupling in optical fibres

Author

Harrington, Kerrianne, Birks, Timothy, and Knight, Jonathan

Subjects
530, optical fibre, optical imaging, optical fibre fabrication
Abstract

In recent years, as the technology that underpins optical fibre fabrication and development has matured, the scope for potential uses of these fibres has rapidly expanded. Initially developed for the telecommunications industry, optical fibres have found their uses across a diverse range of subjects including medical diagnostics, guided wave nonlinear optical processes such as supercontinuum generation, light collection in astrophotonics, and of course the ubiquitous telecommunications industry. The results of all of these applications are, in part, governed by how light is confined and is able to propagate along the optical axis in these structures, in what is termed a mode. Depending on the transverse structure of the fibre, different modes with different properties may be confined. Changes in the transverse structure along the propagation length can allow light to couple from one optical mode to another. These changes, for example induced by post-processing the fibre on a custom-built fibre tapering rig, must satisfy certain adiabatic criteria in order to be low loss, but also can take on a variety of different spatial profiles to fit the given task. If instead of a single core, a fibre contains multiple cores, all of which are able to confine electromagnetic radiation, light input into a mode of one core may couple across to the other local modes of the surrounding cores. In some applications, such as multi-core imaging fibres, it is important to suppress this effect in order to achieve better imaging. In other cases, such as the fibres for sensing or telecommunication, the coupling can give useful information about the state launched at the input facet of the fibre. This thesis presents the design, and fabrication of different optical fibres where the realisation of mode manipulation through changes in the fibre scale along the propagation axis can achieve specific useful functionalities. The work contained in this thesis focuses on three particular applications: medical imaging, telecommunications and astrophotonics. First, a novel multi-core imaging fibre was developed for medical imaging in the distal lungs. These imaging fibres provide low core to core coupling for high imaging quality across visible wavelengths. Fibres are also fabricated for the telecommunications industry to allow longitudinal structural changes over arbitrary length scales without the detrimental effects of loss. Finally, fibres for astronomy are presented. The first post-processed fibre presented for this application can sense the incoming wavefront of a beam of light, and the second device is a re-formatter that can convert the circularly symmetric mode of an optical fibre to a pseudo-slit shape that is compatible with on-sky spectrographs. The wavefront sensor presented in this thesis is a proof of concept and is only capable of sensing 1D tilts. The linear pseudo-slit output structure achieves a diffraction limited pattern in one direction, potentially able to reduce spurious intensity variations in spectroscopic systems.

Published
2019

20. Molecular detection of Gram-positive bacteria in the human lung through an optical fiber–based endoscope

Author

Mills, Bethany, Megia-Fernandez, Alicia, Norberg, Dominic, Duncan, Sheelagh, Marshall, Adam, Akram, Ahsan R., Quinn, Thomas, Young, Irene, Bruce, Annya M., Scholefield, Emma, Williams, Gareth O. S., Krstajić, Nikola, Choudhary, Tushar R., Parker, Helen E., Tanner, Michael G., Harrington, Kerrianne, Wood, Harry A. C., Birks, Timothy A., Knight, Jonathan C., Haslett, Christopher, Dhaliwal, Kevin, Bradley, Mark, Ucuncu, Muhammed, and Stone, James M.

Published
2021
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25. Low-Threshold Green-Pumped Ultraviolet Resonant Dispersive-Wave Emission in Small-Core Anti-Resonant Hollow-Fibre

Author

Sabbah, Mohammed, primary, Harrington, Kerrianne, additional, Mears, Robbie, additional, Brahms, Christian, additional, Alisauskas, Adam, additional, Murphy, Leah R., additional, Yerolatsitis, Stephanos, additional, Wadsworth, William J., additional, Knight, Jonathan C., additional, Stone, James M., additional, Thomson, Robert. R., additional, Birks, Tim. A., additional, and Travers, John C., additional

Published
2023
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28. High fidelity fibre-based physiological sensing deep in tissue

Author

Choudhary, Tushar R., Tanner, Michael G., Megia-Fernandez, Alicia, Harrington, Kerrianne, Wood, Harry A., Marshall, Adam, Zhu, Patricia, Chankeshwara, Sunay V., Choudhury, Debaditya, Monro, Graham, Ucuncu, Muhammed, Yu, Fei, Duncan, Rory R., Thomson, Robert R., Dhaliwal, Kevin, and Bradley, Mark

Published
2019
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29. Controlling and scripting laboratory hardware with open-source, intuitive interfaces: OpenFlexure Voice Control and OpenFlexure Blockly

Author

McDermott, Samuel, Bowman, Richard, Harrington, Kerrianne, Wadsworth, William, Cicuta, Pietro, McDermott, Samuel [0000-0003-2736-5467], Cicuta, Pietro [0000-0002-9193-8496], and Apollo - University of Cambridge Repository

Subjects
FOS: Computer and information sciences, Laboratory Equipment, Physics - Instrumentation and Detectors, Multidisciplinary, Voice Control, Computer Science - Human-Computer Interaction, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Hardware/software Interfaces, Visual Programming, Human-Computer Interaction (cs.HC)
Abstract

Peer reviewed: True, Making user interaction with laboratory equipment more convenient and intuitive should promote experimental work and help researchers to complete their tasks efficiently. The most common form of interaction in current instrumentation is either direct tactile, with buttons and knobs, or interfaced through a computer, using a mouse and keyboard. Scripting is another function typical of smart and automated laboratory equipment, yet users are currently required to learn bespoke programming languages and libraries for individual pieces of equipment. In this paper, we present two open-source, novel and intuitive ways of interacting with and scripting laboratory equipment. We choose the OpenFlexure family of microscopes as our exemplar, due to their open-source nature and smart control system. Firstly, we demonstrate 'OpenFlexure Voice Control' to enable users to control the microscope hands-free. Secondly, we present 'OpenFlexure Blockly' which uses the Blockly Visual Programming Language to enable users to easily create scripts for the microscope, using a drag and drop Web interface. We explain the design choices when developing these tools, and discuss more typical use cases and more general applications.

Published
2023

31. DV-QKD Coexistence With 1.6 Tbps Classical Channels Over Hollow Core Fibre

Author

Alia, Obada, primary, Tessinari, Rodrigo S., additional, Bahrani, Sima, additional, Bradley, Thomas D., additional, Sakr, Hesham, additional, Harrington, Kerrianne, additional, Hayes, John, additional, Chen, Yong, additional, Petropoulos, Periklis, additional, Richardson, David, additional, Poletti, Francesco, additional, Kanellos, George T., additional, Nejabati, Reja, additional, and Simeonidou, Dimitra, additional

Published
2022
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32. Internal Gas Composition and Pressure in As-drawn Hollow Core Optical Fibers

Author

Rikimi, Shuichiro, primary, Chen, Yong, additional, Kelly, Thomas W., additional, Davidson, Ian A., additional, Jasion, Gregory T., additional, Partridge, Matthew, additional, Harrington, Kerrianne, additional, Bradley, Thomas D., additional, Taranta, Austin A., additional, Poletti, Francesco, additional, Petrovich, Marco N., additional, Richardson, David J., additional, and Wheeler, Natalie V., additional

Published
2022
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34. Coexistence analysis of classical channels with DV-QKD over hollow core nested antiresonant nodeless fibre (HC-NANF)

Author

Alia, Obada, primary, Stange Tessinari, Rodrigo, additional, Bahrani, Sima, additional, Sagar, Jaya, additional, Bradley, Thomas, additional, Sakr, Hesham, additional, Harrington, Kerrianne, additional, Hayes, John, additional, Chen, Yong, additional, Petropoulos, Periklis, additional, Richardson, David, additional, Poletti, Francesco, additional, Kanellos, George T., additional, Nejabati, Reza, additional, and Simeonidou, Dimitra, additional

Published
2022
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36. Comparison between the Optical Performance of Photonic Bandgap and Antiresonant Hollow Core Fibers after Long-Term Exposure to the Atmosphere

Author

Rikimi, Shuichiro, primary, Chen, Yong, additional, Bradley, Thomas D, additional, Davidson, Ian A, additional, Sakr, Hesham, additional, Taranta, Austin A, additional, Harrington, Kerrianne, additional, Poletti, Francesco, additional, Petrovich, Marco N, additional, Richardson, David J, additional, and Wheeler, Natalie V, additional

Published
2022
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38. Hollow‐Core Fibers: Low‐Latency WDM Intensity‐Modulation and Direct‐Detection Transmission Over >100 km Distances in a Hollow Core Fiber (Laser Photonics Rev. 15(9)/2021)

Author

Hong, Yang, primary, Bottrill, Kyle R. H., additional, Bradley, Thomas D., additional, Sakr, Hesham, additional, Jasion, Gregory T., additional, Harrington, Kerrianne, additional, Poletti, Francesco, additional, Petropoulos, Periklis, additional, and Richardson, David J., additional

Published
2021
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40. Focal-ratio-degradation (FRD) mitigation in a multimode fiber link using mode-selective photonic lanterns

Author

Beno��t, Aur��lien, Yerolatsitis, Stephanos, Harrington, Kerrianne, Birks, Tim A., and Thomson, Robert R.

Subjects
FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Optics (physics.optics), Physics - Optics
Abstract

We present a new way to mitigate focal-ratio degradation (FRD) when using optical fibers to transport multimode light. Our approach exploits a custom multicore fiber (MCF) with six dissimilar cores that are single mode at ~1550 nm wavelength and minimally coupled over 7 m. We fabricated adiabatic mode-selective photonic lanterns (PLs) at each end of the MCF to create a fiber link with multimode ports, the PLs coupling each spatial mode of the multimode ports to a specific core of the MCF and vice versa. The PL-MCF-PL link exhibits superior FRD behavior compared to a conventional multimode fiber that also supports 6 modes, because it inhibits the transfer of light from lower-order modes to higher-order modes. These results open up a potentially powerful new approach to mitigate FRD in multimode fiber links, with particular applications in astronomical instruments., 9 pages, 12 figures

Published
2020

41. Towards low loss hollow core optical fibres

Author

Bradley, Thomas, primary, Jasion, Gregory T., additional, Sakr, Hesham, additional, Davidson, Ian A., additional, Hayes, John R., additional, Taranta, Austin, additional, Harrington, Kerrianne, additional, Numkam Fokoua, Eric, additional, Chen, Yong, additional, Richardson, David J., additional, and Poletti, Francesco, additional

Published
2021
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42. Transmission of 61 C-Band Channels Over Record Distance of Hollow-Core-Fiber With L-Band Interferers

Author

Nespola, Antonino, primary, Straullu, Stefano, additional, Bradley, Thomas D., additional, Harrington, Kerrianne, additional, Sakr, Hesham, additional, Jasion, Gregory T., additional, Fokoua, Eric Numkam, additional, Jung, Yongmin, additional, Chen, Yong, additional, Hayes, John R., additional, Forghieri, Fabrizio, additional, Richardson, David J., additional, Poletti, Francesco, additional, Bosco, Gabriella, additional, and Poggiolini, Pierluigi, additional

Published
2021
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44. Recent Breakthroughs in Hollow Core Fiber Technology

Author

Jasion, Gregory T, primary, Bradley, Thomas D, additional, Harrington, Kerrianne, additional, Sakr, Hesham, additional, Chen, Yong, additional, Fokoua, Eric Numkam, additional, Davidson, Ian A, additional, Taranta, Austin, additional, Hayes, John R, additional, Richardson, David J, additional, and Poletti, Francesco, additional

Published
2021
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47. Molecular detection of Gram-positive bacteria in the human lung through an optical fiber–based endoscope

Author

Mills, Bethany, primary, Megia-Fernandez, Alicia, additional, Norberg, Dominic, additional, Duncan, Sheelagh, additional, Marshall, Adam, additional, Akram, Ahsan R., additional, Quinn, Thomas, additional, Young, Irene, additional, Bruce, Annya M., additional, Scholefield, Emma, additional, Williams, Gareth O. S., additional, Krstajić, Nikola, additional, Choudhary, Tushar R., additional, Parker, Helen E., additional, Tanner, Michael G., additional, Harrington, Kerrianne, additional, Wood, Harry A. C., additional, Birks, Timothy A., additional, Knight, Jonathan C., additional, Haslett, Christopher, additional, Dhaliwal, Kevin, additional, Bradley, Mark, additional, Ucuncu, Muhammed, additional, and Stone, James M., additional

Published
2020
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