If you look closely at our holiday card this year, you might notice a familiar tool in an unfamiliar setting. Yes, that is one of our probes in the wine glass! It is a little nod to who we are: even when we are celebrating, we never stop thinking about the science that brings us […]
Believe it or not, Christmas 2025 is fast approaching. For many, the holiday season is synonymous with traditional markets and the comfort of a hot cup of mulled wine. However, there is a genuine scientific reason why you should never let your Glühwein boil, and it goes beyond simple culinary advice. In our latest Application […]
The art photonics team is currently fully engaged at the 20. Herbstkolloquium Prozessanalytik, and with two days already behind us, we are thrilled with the productive atmosphere and the depth of the technical exchanges. The event kicked off with strong momentum, setting the stage for deep discussions on the future of process control. We were […]
In complex chemical analysis and biomedical diagnostics, relying on a single spectroscopic technique often results in a "blind spot." While Near-Infrared (NIR) offers speed, it frequently lacks specificity. Raman spectroscopy provides a precise molecular fingerprint but often battles fluorescence interference. Mid-IR offers excellent structural detail but is limited by shallow penetration depths. The Challenge: Spatial […]
art photonics GmbH, founded in Berlin in September 1998, is one of the worldwide leaders in development and production of specialty fiber products for a broad spectrum from 300 nm to 16 µm. Unique technologies of Polycrystalline Mid InfraRed (PIR-) fibers and Metal coated Silica fibers are used for assembly of various spectroscopy probes for medical diagnostics and industrial process control, in volume production of fiber for medical and industrial lasers, for different fiber bundles, etc. Since January 2024 art photonics GmbH is a member of NYNOMIC GROUP.
A year ago, as part of art photonics' 25th Anniversary celebration, we unveiled an exclusive demonstration of our SpectroBar. During our demonstration, we were showcasing how our cutting-edge fiber probes enable remote spectroscopic measurements for solids, liquids, pastes, and powders.
From fluorescence to NIR, Mid-IR to Raman, our fiber probes are designed to meet the diverse needs of both laboratory research and industrial applications.
Explore the capabilities of our Fiber Optic Probes at SpectroBar at future exhibitions and experience the future of remote spectroscopy firsthand!
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We are thrilled to announce that our CEO & Founder, Viacheslav Artyushenko, graces the cover of Magnate View Magazine as one of the Top 5 Exceptional Leaders to Follow in 2024!
Viacheslav's groundbreaking work in fiber optics, particularly with Mid-IR fibers, has positioned art photonics GmbH at the cutting edge of technological innovation. His visionary approach is not only advancing the field but also impacting critical industries such as medical diagnostics, aerospace, and industrial process control.
Since founding art photonics GmbH in 1998, Viacheslav has driven our mission to push the boundaries of fiber optic technology, fostering a culture of creativity and collaboration that fuels our continued success. His leadership and dedication are at the heart of our achievements and future aspirations.
Curious about Viacheslav’s journey and our innovative solutions? Dive into the full article and discover how we’re shaping the future of technology: Read More
We are thrilled to announce the release of our latest Application Note, detailing the advanced use of mid-infrared fiber spectroscopic techniques for real-time monitoring of biomass, ethanol, and crucial hydrocarbons during the yeast fermentation process.
Traditional analytical methods often face challenges when dealing with the complexity and speed required in biotechnological processes. Our innovative approach, leveraging the ATR Fiber Probe, provides a breakthrough solution for in-line process analysis, significantly enhancing both product quality and operational efficiency.
Explore how fiber-based spectroscopy can transform bioprocess control, driving industrial biotechnology towards unparalleled precision and reliability.
Metal coated fibers (Cu- and Al-) are the optimal solution for applications in high temperature, vacuum and harsh environment conditions. They are available in:
UV-VIS (High-OH) and VIS-NIR (Low-OH) ranges;
Single mode and Multimode with core diameters up to 600 um;
We are excited to share our new Application Note detailing the innovative multimode fiber optic probe for simultaneous spectroscopic analysis.
Key advantages:
Simultaneous Fluorescence & ATR mid-IR Measurements: This probe allows for the concurrent use of Fluorescence and Attenuated Total Reflection (ATR) Mid-IR spectroscopy, offering comprehensive chemical information from a single measurement point.
Same-Point Analysis: Measuring at one single location, the probe delivers precision in its measurements, essential for non-homogeneous samples such as biological tissues.
In-Line Measurement: Designed for direct use in the area of interest, the probe facilitates real-time, in situ analysis without the need for sample preparation.
Discover how combining spectroscopic techniques enhances analytical capabilities, especially in challenging fields like medical diagnostics.
Metal coated fibers (Cu- and Al-) are the optimal solution for applications in high temperature, vacuum and harsh environment conditions. They are available in:
UV-VIS (High-OH) and VIS-NIR (Low-OH) ranges
Single mode and Multimode with core diameters up to 600 um
We are excited to share one of our latest articles, showcasing the groundbreaking capabilities of our multispectral Combi Probe! This innovative fiber optic design enables simultaneous analysis using both mid-infrared (Mid-IR) and fluorescence spectroscopy, offering unparalleled efficiency in spectroscopic analysis.
What is the Combi Probe?
The Combi Probe is a versatile tool designed for the simultaneous measurement of Mid-IR and fluorescence spectra. This dual-functionality probe combines the strengths of both techniques, providing comprehensive chemical information from a single measurement point.
Why Use Two Spectroscopic Methods?
Utilizing both Mid-IR and fluorescence spectroscopy allows for a more detailed and reliable analysis:
Mid-IR Spectroscopy: Offers precise chemical composition analysis at a molecular level, ideal for identifying various chemical bonds and functional groups.
Fluorescence Spectroscopy: Excels in detecting specific biomolecules and structural changes within tissues, making it indispensable for applications in biomedical diagnostics.
Real-World Applications
Our recent tests on biological tissues have demonstrated the probe's capability to differentiate between various tissue types with high precision, especially when one modality alone could not achieve this. This advancement is particularly promising for tumor diagnostics, where accurate detection of tumor margins is crucial.
"The team at art photonics GmbH goes the extra mile to deliver superior fiber optic solutions that exceed customer expectations" - Viacheslav Artyushenko
We are happy to share that our Founder & CEO, Viacheslav Artyushenko, recently published an inspiring interview with Passionate Magazine, and it even made it to the cover page!
The interview delves into Slava's incredible journey from his early days at the Moscow Institute of Physics and Technology to pioneering advancements in the fiber optics industry. His story is a testament to relentless pursuit, innovation, and resilience.
From his groundbreaking work with Polycrystalline Infrared (PIR) Fibers to leading art photonics GmbH towards global recognition, Slava's vision has consistently pushed the boundaries of specialty fiber optics. The article highlights his significant contributions, including the development of mid-IR fiber technology and the company's remarkable growth despite challenges like the pandemic.
Did you know that art photonics also produces Silica Fiber Cables for high-power laser light delivery, suitable for hair removal systems?
Discover art photonics' High-Power Silica Fiber Cables, designed to enhance the efficiency and safety of laser hair removal systems. These advanced fiber-optic cables are compatible with various hair removal lasers and offer a range of features tailored for optimal performance:
High Cable Service Life: Our double-clad fibers ensure prolonged service life and high laser power delivery with exceptional brightness and beam quality.
Precision and Safety: art photonics' manufacturing technologies guarantee precise fiber position inside the connector and a perfect surface quality of the fiber end, preventing burns and malfunctions.
Versatility: Suitable for cosmetic laser hair removal, medical dermatology procedures, aesthetic skin treatments, and permanent hair reduction in clinical settings.
Compatible with near-infrared lasers (700 - 1064 nm) and featuring large core diameters (1000 - 1500 μm), these cables are the key to efficient, safe laser procedures.
We are thrilled to announce that art photonics has successfully passed the ISO 9001:2015 Quality Management System certification. This certification covers our management system in the development and production of special optical fibres and various fibre systems.
ISO 9001:2015 is an internationally recognized standard that applies to any organization, regardless of size or industry. Over one million organizations from more than 160 countries have applied this standard to their quality management systems. The ISO 9001:2015 standard helps organizations organize processes, improve the efficiency of processes, and continually improve.
At art photonics, we are committed to continually improving our products to ensure our customers are always satisfied. This certification is a testament to our dedication to quality and excellence.
More information about ISO 9001:2015 can be foundhere.
We extend our gratitude to our incredible team for their hard work and to our customers for their continued trust and support. Here's to reaching new heights together!
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