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Research project

Airguide Photonics

Project overview

Optical fibres lie at the heart of our increasingly technological society. For example, they support the internet and mobile communications that we all now take for granted, they save lives through medical diagnosis and interventions using fibre-optic endoscopes, and they enable the mass production of a huge array of commercial products through fibre laser based materials processing.

Within our Airguide Photonics research programme we aim to translate Hollow Core Fibre (HCF) technology from the research lab to a deployable fibre technology, unleashing innovative applications across a broad range of science and engineering fields.

“The ORC has been pioneering the development of fibre optics and advancing communications technology for many years and has an impressive record of using research funding to collaborate with academic and industry partners. The AirGuide Photonics programme promises to push at the boundaries once more. We are confident that the research will uncover more discoveries and lead to world-leading innovations.”
Professor Tom Rodden - Deputy Chief Executive of the Engineering and Physical Sciences Research Council (EPSRC)

Staff

Lead researchers

Professor David Richardson FREng, FRS

Research interests

  • Hollow Core Optical Fibres
  • Optical Communications
  • High Power Fibre Lasers
Connect with David

Email: [email protected]

Other researchers

Professor Sir David Payne KBE CBE FRS FREng

Professor of Photonics

Research interests

  • high-power fibre lasers
  • spun fibres for control of dispersion, now extensively used in undersea fibre cables
  • the Er/Yb cladding-pumped fibre amplifier used for cable television distribution
Connect with Sir David

Email: [email protected]

Professor Jayanta Sahu

Professorial Fellow-Research
Connect with Jayanta

Email: [email protected]

Professor Periklis Petropoulos

Professor

Research interests

  • Optical communications,
  • All-optical signal processing,
  • Novel fibre and waveguide technologies
Connect with Periklis

Email: [email protected]

Professor Radan Slavik

Professorial Fellow-Research

Research interests

  • In recent years, there have been significant developments in lightwave technologies enabling wide exploitation of optical phase, as exemplified in particular by the dawn of Coherent Optical Communications - the key enabler for the growth in the capacity of the Internet. This is due to many key breakthroughs in laser technology (low-noise low-cost and compact lasers), new revolutionary concepts that have recently  been introduced (e.g., the Optical Frequency Comb, the significance of which was demonstrated by the award of a Nobel Prize in 2005), and significant advances in electronics that, thanks to the increased speeds now possible, can accommodate the processing of very complicated coherent (amplitude + phase) signals.
  • Another exciting field is Hollow Core Optical fibres, which guides ligth in a central hole surrounded by a microstructure that prevents light escaping from the core. Although known for over 20 years, only very recently their fabrication enabled them to use their full potential. 
Connect with Radan

Email: [email protected]

Professor Francesco Poletti

Professorial Fellow-Research

Research interests

  • Hollow Core Optical Fibres: design and fabrication
  • Optical Communications: high capacity and low latency
  • Novel active and passive optical fibres
Connect with Francesco

Email: [email protected]

Collaborating research institutes, centres and groups

Research outputs

Hollow core fiber Fabry-Perot interferometers with reduced sensitivity to temperature
Meng Ding, Eric Numkam Fokoua, John R. Hayes, Hesham Sakr, Peter Horak, Francesco Poletti, David J. Richardson & Radan Slavík, 2022, Optics Letters, 47(10), 2510-2513
DOI: 10.1364/OL.456589
Type: article
Internal gas composition and pressure in as-drawn hollow core optical fibers
Shuichiro Rikimi, Yong Chen, Thomas W. Kelly, Ian A. Davidson, Gregory T. Jasion, Matthew Partridge, Kerrianne Harrington, Thomas D. Bradley, Austin A. Taranta, Francesco Poletti, Marco N. Petrovich, David J. Richardson & Natalie V. Wheeler, 2022, Journal of Lightwave Technology, 40(14), 4776-4785
DOI: 10.1109/JLT.2022.3164810
Type: article
Transient differential pressure-induced loss variation in as-drawn hollow core optical fibres
Shuichiro Rikimi, Thomas William Kelly, Peter Horak, Ian Davidson, Yong Chen, Thomas Bradley, Austin Taranta, Francesco Poletti, David J. Richardson, Natalie Wheeler & Simon Bawn, 2022
DOI: 10.1117/12.2621301
Type: conference
Hollow-core fiber delivery of broadband mid-infrared light for remote spectroscopy
Kerr Johnson, Pablo Castro-Marin, Carl Farrell, Ian A. Davidson, Qiang Fu, Gregory T. Jasion, Natalie V. Wheeler, Francesco Poletti, David J. Richardson & Derryck T. Reid, 2022, Optics Express , 30(5), 7044-7052
DOI: 10.1364/OE.450413
Type: article
Broadband mode scramblers for few-mode fibers based on 3D printed mechanically induced long-period fiber gratings
Xin Huang, Yongmin Jung, Yaping Liu, Kerrianne Harrington & David J. Richardson, 2022, IEEE Photonics Technology Letters, 34(3), 169-172
DOI: 10.1109/LPT.2022.3144370
Type: article