An ultra-fast ultra-broadband photonic measurement facility
Lead Research Organisation:
University of Southampton
Department Name: Optoelectronics Research Centre (ORC)
Abstract
The properties of light are already exploited in communications, the Internet of Things, big data, manufacturing, biomedical applications, sensing and imaging, and are behind many of the inventions that we take for granted today. Nevertheless, there is still a plethora of emerging applications with the potential to effect positive transformations to our future societies and economies. UK researchers develop cutting-edge technologies that will make these applications a reality. The characteristics of these technologies already surpass the operating wavelength range and electronic bandwidth of our existing measurement equipment (as well as other facilities in the UK), which currently forms a stumbling block to demonstrating capability, and eventually generating impact. Several important developments, relating for example, to integrated photonic technologies capable of operating at extremely high speeds or the invention of new types of optical fibres and amplifiers that are capable of breaking the traditional constraints of conventional silica glass technology, necessitate the use of ever more sophisticated equipment to evaluate the full extent of their capabilities.
This project aims at establishing an open experimental facility for the UK research community that will enable its users to experiment over a wide range of wavelengths, and generate, detect and analyse signals at unprecedented speeds. The new facility will enable the characterisation of signals in time and will offer a detailed analysis of their frequency components. Coherent detection will be possible, thereby offering information on both the amplitude and phase characteristics of the signals.
This unique capability will enable its users to devise and execute a range of novel experiments. For example, it will be possible to experiment using signals, such as those that will be adopted in the communication networks of the future. It will make it possible to reveal the characteristics of novel devices and components to an extent that has previously not been possible. It will also be possible to analyse the response of experimental systems in unprecedented detail.
The facility will benefit from being situated at the University of Southampton, which has established strong experimental capabilities in areas, such as photonics, communications and the life sciences. Research at the extended cleanroom complex of Southampton's Zepler Institute, a unique facility in UK academia, will benefit from the availability of this facility, which will enable fabrication and advanced applications research to be intimately connected.
Furthermore, this new facility will be attached to EPSRC's National Dark Fibre Facility - this is the UK National Research Facility for fibre network research, offering access and control over the optical layer of a dedicated communications network for research-only purposes. The two together will create an experimental environment for communications research that is unique internationally.
This project aims at establishing an open experimental facility for the UK research community that will enable its users to experiment over a wide range of wavelengths, and generate, detect and analyse signals at unprecedented speeds. The new facility will enable the characterisation of signals in time and will offer a detailed analysis of their frequency components. Coherent detection will be possible, thereby offering information on both the amplitude and phase characteristics of the signals.
This unique capability will enable its users to devise and execute a range of novel experiments. For example, it will be possible to experiment using signals, such as those that will be adopted in the communication networks of the future. It will make it possible to reveal the characteristics of novel devices and components to an extent that has previously not been possible. It will also be possible to analyse the response of experimental systems in unprecedented detail.
The facility will benefit from being situated at the University of Southampton, which has established strong experimental capabilities in areas, such as photonics, communications and the life sciences. Research at the extended cleanroom complex of Southampton's Zepler Institute, a unique facility in UK academia, will benefit from the availability of this facility, which will enable fabrication and advanced applications research to be intimately connected.
Furthermore, this new facility will be attached to EPSRC's National Dark Fibre Facility - this is the UK National Research Facility for fibre network research, offering access and control over the optical layer of a dedicated communications network for research-only purposes. The two together will create an experimental environment for communications research that is unique internationally.
Organisations
- University of Southampton (Lead Research Organisation)
- BT Group (Collaboration)
- Keysight Technologies (Collaboration)
- Riga Technical University (RTU) (Collaboration)
- Aston University (Collaboration)
- University of West Attica (Collaboration)
- Research Institutes of Sweden (Collaboration)
- Technical University of Denmark (Collaboration)
- Ulster University (Collaboration)
- University of Southampton (Collaboration)
- EPSRC NationalEpitaxyFacility (Project Partner)
- Fibercore Ltd (Project Partner)
- Compound Semiconductor Applications Catapult (Project Partner)
- BT plc (Project Partner)
- AccelerComm (Project Partner)
- Danish Technical University (Project Partner)
- National Dark Fibre Facility (Project Partner)
- University of Bristol (Project Partner)
- Rockley Photonics Limited (Project Partner)
- University of Oxford (Project Partner)
- UNIVERSITY COLLEGE LONDON (Project Partner)
Publications
Brugnoni A
(2024)
Flexible Generation of Optically-Carried Sub-THz Beat Notes Stabilized Through an Integrated SiN Frequency Locker
in IEEE Photonics Technology Letters
Deligiannidis S
(2024)
Multichannel Nonlinear Equalization in Coherent WDM Systems Based on Bi-Directional Recurrent Neural Networks
in Journal of Lightwave Technology
Jones R
(2023)
Spectral power profile optimization of a field-deployed wavelength-division multiplexing network enabled by remote EDFA modeling
in Journal of Optical Communications and Networking
Taengnoi N
(2023)
Demonstration of 100-km Long O-band WDM Amplified Coherent Transmission
Taengnoi N
(2024)
Coherent O-band WDM transmission of DP-16QAM over a 50-km BDFA-amplified link.
in Optics express
| Description | A new openly accessible Research Facility, x-band labs, was established at Southampton as a result of this funding. The facility boasts characterisation capabilities of electronic and photonic equipment at state-of-the-art speeds and over 350nm of optical bandwidth. The facility has been advertised and is attracting the interest of several external partners. As of March 2025, there have been over 20 expressions of interest to access it, and it has already served 10 different research projects. The facility is attached to national initiatives, such as the National Dark Fibre Facility and the JOINER infrastructure. |
| Exploitation Route | The Facility enables the characterisation of custom components (even at chip-level) as well as the demonstration of more complete systems, mainly targeting applications in communications. Its flexible nature makes it relevant to a variety of users and experimental cases. |
| Sectors | Aerospace Defence and Marine Digital/Communication/Information Technologies (including Software) Education Electronics Manufacturing including Industrial Biotechology |
| Description | The Grant has enabled to establish a new openly accessible Facility at the University of Southampton, which, in its first months of operation, is already attracting significant interest from partners. It is attached to the National Dark Fibre Facility and is a main tool used in both DSIT- and UKRI-funded research initiatives. The Facility has also raised industrial interest and the first users from this community have already started accessing it. |
| First Year Of Impact | 2023 |
| Sector | Digital/Communication/Information Technologies (including Software),Education |
| Impact Types | Economic Policy & public services |
| Description | UKTIN Academic Strategy Committee |
| Geographic Reach | National |
| Policy Influence Type | Participation in a guidance/advisory committee |
| URL | https://uktin.net/ |
| Description | Future communications hub in all-spectrum connectivity |
| Amount | £2,032,580 (GBP) |
| Funding ID | EP/X040569/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 06/2023 |
| End | 06/2026 |
| Description | Future communications hub in all-spectrum connectivity: additional funds |
| Amount | £8,528,424 (GBP) |
| Funding ID | EP/Y037197/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2023 |
| End | 03/2025 |
| Description | National Dark Fibre Facility- Equipment Enhancement |
| Amount | £485,000 (GBP) |
| Funding ID | EP/X034879/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 01/2023 |
| End | 07/2024 |
| Description | Platform Driving The Ultimate Connectivity |
| Amount | £2,030,861 (GBP) |
| Funding ID | EP/X04047X/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 04/2023 |
| End | 04/2026 |
| Description | Aston enquiry |
| Organisation | Aston University |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Information provided on the specifications and future involvement |
| Collaborator Contribution | Enquiry on the use of the Facility and inclusion in grant proposal. |
| Impact | This relates to a future collaboration - Outcome unknown |
| Start Year | 2023 |
| Description | BT Collaboration |
| Organisation | BT Group |
| Department | BT Research |
| Country | United Kingdom |
| Sector | Private |
| PI Contribution | Experimental demonstrations implementing use cases defined by BT on the topic of power-and-data-over-fibre. Delivered seminar to the partner. Knowledge exchange through joint supervision of PhD student |
| Collaborator Contribution | PhD CASE studentship and co-supervision. In-kind support through loan of equipment. |
| Impact | Two publications at international conferences. Deliverables to the DSIT REASON project which co-funded the work. BT were directly involved in this project, through which they defined the use case for which we developed and demonstrated a solution. A demonstrated was recorded and communicated to partners and the public. |
| Start Year | 2024 |
| Description | DTU, UWA Opt Computing |
| Organisation | Technical University of Denmark |
| Country | Denmark |
| Sector | Academic/University |
| PI Contribution | Experimental implementations of systems designed together with the team of collaborators. |
| Collaborator Contribution | Design support. Proof-of-principle simulations. They have shipped to us chips fabricated externally for characterisation and experiments. |
| Impact | One conference publication at OFC 2025 (leading optical communications conference). The work is ongoing. |
| Start Year | 2024 |
| Description | DTU, UWA Opt Computing |
| Organisation | University of West Attica |
| Country | Greece |
| Sector | Academic/University |
| PI Contribution | Experimental implementations of systems designed together with the team of collaborators. |
| Collaborator Contribution | Design support. Proof-of-principle simulations. They have shipped to us chips fabricated externally for characterisation and experiments. |
| Impact | One conference publication at OFC 2025 (leading optical communications conference). The work is ongoing. |
| Start Year | 2024 |
| Description | ECS Partners |
| Organisation | University of Southampton |
| Department | School of Electronics and Computer Science Southampton |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Contribution to proposal; Input on specifications and potential use of Facility |
| Collaborator Contribution | Enquiry on the use of the Facility |
| Impact | Proposal unsuccessful. Partnership has been put on hold until new opportunities are identified. |
| Start Year | 2023 |
| Description | Mohammad Hadi |
| Organisation | Ulster University |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Letter of support to New Investigator for their proposal Future access to the facility. |
| Collaborator Contribution | Inclusion of the Facility to proposal and commitment of staff effort to access it. |
| Impact | Outcome of proposal still unknown |
| Start Year | 2024 |
| Description | RISE Partnership |
| Organisation | Keysight Technologies |
| Country | United States |
| Sector | Private |
| PI Contribution | Hosting of a research visitor. Contribution with the Facilities of x-band labs. Transmission in custom-made hollow-core fibre. |
| Collaborator Contribution | Contribution of fast silicon modulator. High-speed hardware made available for experimentation. Digital signal processing algorithms for generation and detection of signals. |
| Impact | Work ongoing. |
| Start Year | 2024 |
| Description | RISE Partnership |
| Organisation | Research Institutes of Sweden |
| Country | Sweden |
| Sector | Public |
| PI Contribution | Hosting of a research visitor. Contribution with the Facilities of x-band labs. Transmission in custom-made hollow-core fibre. |
| Collaborator Contribution | Contribution of fast silicon modulator. High-speed hardware made available for experimentation. Digital signal processing algorithms for generation and detection of signals. |
| Impact | Work ongoing. |
| Start Year | 2024 |
| Description | RISE Partnership |
| Organisation | Riga Technical University (RTU) |
| Country | Latvia |
| Sector | Academic/University |
| PI Contribution | Hosting of a research visitor. Contribution with the Facilities of x-band labs. Transmission in custom-made hollow-core fibre. |
| Collaborator Contribution | Contribution of fast silicon modulator. High-speed hardware made available for experimentation. Digital signal processing algorithms for generation and detection of signals. |
| Impact | Work ongoing. |
| Start Year | 2024 |
| Description | FORCE Workshop - Chalmers University |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Professional Practitioners |
| Results and Impact | Participation in workshop and delivery of invited presentation. The event resulted in establishing a research collaboration between our University and two other parties. |
| Year(s) Of Engagement Activity | 2024 |
| Description | Invitation to present at Workshop on Multi-band communications at ECOC 2024 (P Petropoulos) |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Industry/Business |
| Results and Impact | Presented outline of research in the area and participated in panel discussion on the prospect of Multi-band systems (WS4 - Workshop in ECOC 2024, Frankfurt) |
| Year(s) Of Engagement Activity | 2024 |
| Description | Membership in UKTIN Academic Strategic Working Group |
| Form Of Engagement Activity | A formal working group, expert panel or dialogue |
| Part Of Official Scheme? | No |
| Geographic Reach | National |
| Primary Audience | Policymakers/politicians |
| Results and Impact | Defining recommendations for the UK telecommunications strategy. Informing research organisations, policymakers and funding bodies on directions of strategic importance. |
| Year(s) Of Engagement Activity | 2023,2024 |
| URL | https://uktin.net/ |