SENSING USING QUANTUM OCT WITH AI

Digital, Industry & SpaceHORIZON-RIAID: 101070062
EC Contribution
€64,356
Consortium Size
11 orgs
Start Year
2022
Summary

OCT is a key imaging technology, allowing non-contact high resolution 3D imaging which has helped to save the sight of millions of people. However, progress has stalled since reaching the axial resolution (dz) limit of 1 um. Quantum OCT (QOCT) offers a step change x2 improvement in dz and greatly reduces dispersion. In addition, control of orbital angular momentum (OAM) reduces noise and improves edge and surface profile definition and discrimination of chiral objects. SEQUOIA will deliver the highest resolution OCT system ever built, protected from noise by artificial intelligence (AI) based OAM control in a real-world application: retinal imaging.Underpinning SEQUOIA is an ultra-stable, ultra-low noise comb source of unprecedented bandwidth (250-400 nm) which builds on NKT’s world-leading supercontinuum sources and adds new PTB techniques for stabilisation and noise control.AI-based algorithms (UPV) will be used at TUD to program spatial light modulators to encode high purity high-dimensional OAM onto the QOCT beams to increase resilience to noise and improve imaging quality.MPD will deliver new single-photon avalanche diode arrays specifically tailored for quantum imaging, to perform photon coincidence correlation at an unprecedented rate.NOR’s world-leading classical OCT software will be extended to create the first ever QOCT software.Theoretical work at NCU will develop the first mathematical models of noise in QOCT to optimise the spontaneous parametric downconversion.PTB will perform metrological characterisation of all relevant parameters and DTU will quantify the QOCT advantage over classical OCT.Retinal imaging using stable test standards from WWU will be performed, with automated AI-algorithms (UPV) to compare performance with classical OCT.ARD will perform a detailed techno-economic and social life cycle analyses to evaluate future markets and impacts. VIV will coordinate an extensive dissemination programme with a high-profile Advisory Board.

Consortium (11)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (9)
Computationally enhanced, quantum-optical ways of achieving axial super-resolution in optical coherence tomography [Poster]
Photonics West 2024· 2024DOI
Sylwia M. Kolenderska
Durable ex vivo mouse retina 3D tissue models for optical coherence tomography
Photonics West 2024· 2024DOI
Álvaro Barroso, Peter Heiduschka, Gerburg Nettels-Hackert, Steffi Ketelhut, Rocío del Amor, Fernando García-Torres, Sandra Morales-Martínez, Valery Naranjo, Björn Kemper, and Jürgen Schnekenburger
Generation of broadband ultraviolet orbital angular momentum for quantum optical coherence tomography
Photonics West 2024· 2024DOI
Abhijit Roy, Ali Mohebi, Erik Nicolai Christensen, Patrick Bowen Montague, Fransisca Crislane Vieira de Brito, Sylwia Kolenderska, Piotr Kolenderski, Enrico Conca, Simone Tisa, Ole Bang, Niels Møller Israelsen
Quantum-inspired optical coherence tomography using classical light in a single-photon counting regime
Optics Letters· 2024DOI
Anita M. Dąbrowska; Sylwia M. Kolenderska; Jakub Szlachetka; Karolina Słowik; Piotr Kolenderski
Ultra-broadband spontaneous parametric down-conversion generation using supercontinuum laser in quantum-optical coherence tomography
Photonics West 2024· 2024DOI
Ali Mohebi, Abhijit Roy, Erik Nicolai Christensen, Patrick Bowen Montague, Fransisca Crislane Vieira de Brito, Sylwia Kolenderska, Piotr Kolenderski, Enrico Conca, Simone Tisa, Ole Bang, and Niels Møller Israelsen
Biomedical Optics Express
Biomedical Optics Express· 2023DOI
Barroso, Álvaro; Ketelhut, Steffi; Nettels-Hackert, Gerburg; Heiduschka, Peter; Amor, Rocío del; Naranjo, Valery; Kemper, Björn; Schnekenburger, Jürgen
Simultaneous spectral calibration and dispersion compensation using a thin piece of glass
ECBO 2023· 2023DOI
Sylwia M. Kolenderska
Two-fold resolution increase and all-depth linearization using a neural network
ECBO 2023· 2023DOI
Krzysztof A. Maliszewski
Ultrabright source of non-degenerate polarization-entangled photon pairs based on off-the-shelf polarization optics
Applied Physics Letters· 2023DOI
Jakub Szlachetka; Kaushik Joarder; Piotr Kolenderski
Deliverables (1)