SPIE.Photonics West 2023German Exhibitors Fraunhofer Institute for Applied Optics and Precision Engineering IOF

Fraunhofer Institute for Applied Optics and Precision Engineering IOF

Booth number: 4105-25

About us

Ranging from array projectors in the automotive sector to 3D real-time scanners in production and quantum technologies for tap-proof communication, the Fraunhofer - Institute for Applied Optics and Precision Engineering IOF develops innovative solutions with light for a wide variety of applications. To cover the entire photonic process chain, we use our comprehensive competencies in the areas of optical and mechanical system design, micro- and nanostructured optics, opto-mechatronical as well as precision optical components and systems, functional surfaces and coatings, laser and fiber technology, imaging and sensing technology, and future technologies, such as optical quantum technologies. Innovative solutions arise that open up new fields of application for photonics in science and industry. As part of the Fraunhofer-Gesellschaft, our research is based on a passion for taking on significant challenges and breaking new ground.


Fraunhofer Institute for Applied Optics and Precision Engineering IOF
Albert-Einstein-Str. 7
07745 Jena

E-mail: events@iof.fraunhofer.de
Phone: +49 3641 8070
Internet: www.iof.fraunhofer.de/

Contact person:

Dr. Erik Beckert
Head of Department | Opto-mechatronical Components and Systems
E-mail: eric.beckert@iof.fraunhofer.de

Dr. Robert Kammel
Head of Department | Strategy, Organisation, Communication
E-mail: robert.kammel@iof.fraunhofer.de

Dr. Thomas Schreiber
Head of Department | Laser and Fiber Technology
E-mail: thomas.schreiber@iof.fraunhofer.de

Dr. Ulrike Schulz
Group Leader | Functional Surfaces and Coatings
E-mail: ulrike.schulz@iof.fraunhofer.de

Products & Services

EXOMARS 532 nm laser for RAMAN experiment
CO2-spliced fiber components and systems
CO2-ablated freeform for fiber drawing
Laser beam soldered lenses for harsh application environments
3D Inkjet printed optical components
SLITA assembly
Telescope model for quantum communication
Multiplexer module for laser communication in space
Fiber material for Laser Cooling
Additive manufacturing of optical freeform systems for VIS-NIR-IR Applications
Low loss broadband antireflective coatings AR-plas2® for quantum applications
Conformal interference multilayer systems by ALD
High-power and photonic crystal fiber preforms and fibers
LIDAR fiber laser
Spectral Beam Combiner for Laser Space Communication
Wafer & grids
Space-suitable EQM of a high-performance EPS

Quantum Communication made in Germany - QuNET Initiative

The QuNET initiative develops quantum technology for QKD applications. Experts from Fraunhofer IOF and DLR have developed an entangled photon pair source for safe satellite-based quantum communication together with a communication terminal. The source efficiency reaches up to 300.000 pairs/s. The OSIRIS4CubeSat is with its 395g the world’s smallest Laser Communication Terminal, consuming <9W of power, while supporting a data rate of 100Mbit/s.
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High-Throughput Telescope for QKD-Terminals – for Earth & Space

Based on its expertise in the construction of high-performance metal optics, Fraunhofer IOF is developing within the QuNET initiative an obscuration-free, metal-based, and diffraction-limited telescope. Its scalable aperture allows for various QKD scenarios: terrestrial links, links to flying platforms, or to satellites. Due to its wavelength-independence compared to lens systems, this telescope offers a broad range of applications.
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Telescope system for quantum communication

EXOMARS 532 nm laser for RAMAN experiment

The RAMAN spectrometer, a scientific instrument of a rover to analyze minerals on the surface of Mars, uses a miniaturized and space-qualified laser source. Its core is a green diode-pumped solid-state laser with frequency doubling working at a wavelength of 532 nm and more than 100 mW output power. Though it weighs only 50 g including its housing, the sensitive optical components are constructed to withstand heavy vibrations as well as harsh thermal and radiation conditions.
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Diode-pumped solid-state laser module (DPSSL) for the ExoMars mission

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