Revolutionize Cancer Diagnosis with Quantum Entangled Photons

Latest News

1 April 2025

Webinar - ATR Optical Fiber Probes: Principles and Applications

By Stanislav Perevoschikov

art photonics invites you to our exclusive webinar on ATR Optical Fiber Probes: Principles and Applications. This session is designed for scientists, process engineers, and spectroscopy enthusiasts looking to master IR spectroscopy for remote sensing in challenging environments. We are offering two sessions to suit your schedule: Session 1: Tue, Apr 15, 2025 | 4:00 […]

26 March 2025

Upgraded Fiber Coupler for CO and CO₂ Lasers - with 0.2µm Positioning Precision

By Stanislav Perevoschikov

art photonics is excited to announce an update to our fiber coupler for CO- and CO₂-lasers. We have enhanced our robust and precise design with 0.2µm positioning precision, making the alignment and centering of the lens to the laser beam simpler than ever. Key features include: Ultra-low coupling losses (<0.1dB) Clear aperture: 10mm Maximum laser […]

Latest Events

20 March 2025

Highlights from LASER World of PHOTONICS CHINA 2025

By Stanislav Perevoschikov

art photonics recently returned from LASER World of PHOTONICS CHINA 2025 in Shanghai. We had the opportunity to engage in meaningful conversations and build new connections around our advanced fiber optics solutions. We appreciate everyone who visited our booth and helped make the event memorable. Looking ahead, we invite you to join us at Laser […]

12 March 2025

Day 1 at Laser World of Photonics CHINA 2025, Shanghai

By Stanislav Perevoschikov

We are off to an exciting start in Shanghai at Laser World of Photonics CHINA 2025! Our Sales Director, Haro Fritsche, is on site alongside our fantastic distributor UniqueRay! Today, we are showcasing our innovative system solutions. Visit our booth to explore how our fiber cables and probes span the complete UV-Vis-NIR-MIR range (0.3-16 µm) […]

Revolutionize Cancer Diagnosis with Quantum Entangled Photons

Posted on:

16 March 2023

art photonics is proud to be a part of the Quantum-Enhanced Early Diagnostics (QEED) project, which aims to revolutionize cancer diagnosis and treatment by developing a novel imaging technique based on quantum entangled photon pairs. This technology, known as QEED microscopy, will enable label-free examination of tissue samples in just two minutes, significantly reducing measurement time and allowing for high sample throughput.

Collaborating with three research institutes, two clinical institutes, and five industrial partners, the QEED project is a groundbreaking effort to transfer measurement information from mid-infrared (MIR) to near-infrared (NIR), allowing for faster and more reliable diagnoses, reducing false-negative and false-positive results, and decreasing psychological distress associated with screening.

We are honored to contribute to this innovative project and look forward to the impact it will have on the field of biomedical research and clinical pathology. Found out more about the project on our LinkedIn post.

The QEED Project is funded by Bundesministerium für Bildung und Forschung in the context of the funding program “quantum technologies - from basic research to market”.

Image legend:
Comparison of tissue analysis: Colorectal cancer tissue sample using hematoxylin and eosin staining as
gold standard (A), MIR (QCL)‐ (B) and FTIR‐based imaging system (C). The times shown indicate the
duration of the measurements. Red, pathological regions and infiltrating inflammatory cells; white,
muscle; green, connective tissue; cyan, crypts; and blue, lumen. The comparison shows that the MIR
imaging results are in good agreement with those obtained by FTIR imaging.

Revolutionize Cancer Diagnosis with Quantum Entangled Photons

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