Fraunhofer IOFHall 3.1 - Stand 610
- Optical components and materials
- Optical components
- Optical coatings
- Optical systems
- Optomechanical components and assemblies
- Optomechanical components
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300mm optical Wafer with Metasurfaces
Researchers at Fraunhofer IOF have succeeded for the first time in producing a metasurface with a diameter of almost 30 centimeters using electron beam lithography. The new manufacturing technology can help build optical systems significantly thinner in the future. Such large metasurfaces ...more
Pattern Projection using Maskless Microlens Arrays
A newly developed maskless design approach describes the use of individually contoured and decentered microlens arrays in micro-optical projectors. This new method offers high transmission, new artistic design freedom and possible cost savings through injection molding for use cases in the ...more
Ganymede Laser Altimeter
The Ganymede Laser Altimeter (GALA), aboard the ESA JUICE spacecraft, employs high-precision metal optics to explore Jupiter's moon Ganymede. Developed in collaboration with Hensoldt Optronic GmbH, Fraunhofer IOF crafted a precise laser receiver unit for GALA, under the leadership of the ...more
High-precision double slit for space spectrometer
The FLEX mission aims to map global vegetation status from space, revealing photosynthetic activity, plant health, and stress. For the spectrometer on board the satellite, Fraunhofer IOF crafted a high-precision silicon double slit device with sub-µ range slit widths and two high-precision mirrors.
EXOMARS 532 nm laser for RAMAN experiment on Mars
The ExoMars rover will examine Martian surface minerals to seek signs of extraterrestrial life. For this, a doubled 532 nm diode-pumped solid-state laser (DPSSL) was developed by Fraunhofer IOF and Monocrom S.L., with optical components built to endure Mars' unique environmental conditions.
New sensor for direct and absolute light absorption measurement
Our compact LID sensor offers highly sensitive absorption measurement, fulfilling the need for precise testing of absolute absorption in optical materials, thin films, and fibers. It uniquely combines the photo-thermal concept with electrical calibration, allowing for versatile use with ...more
Flexible microspectrometer for mobile applications
Researchers at the Fraunhofer Institute for Applied Optics and Precision Engineering IOF have developed a particularly compact spectrometer module. It maps spectra from 39 optical fibers onto a camera sensor in the smallest of spaces. This is made possible by special micro-optics.
If ...more
The Fraunhofer - Institute for Applied Optics and Precision Engineering IOF in Jena conducts applied research in the field of photonics and develops innovative optical systems to control light - from its generation and manipulation to its application. The services offered by the institute …mehr
At the Fraunhofer Center Erfurt, the core institutes Fraunhofer IOF, Fraunhofer IPMS and Fraunhofer IZI have been pursuing joint research activities since 2018. We are looking for a committed and experienced leader and manager who will actively shape the development of the site and represent …mehr
14. May 2024 from 13:40 to 14:20 Clock
Mit Mikro- und Nanooptik von der Straße bis in den Weltraum
Fraunhofer IOF
Dr. Christian Vetter
hall 3.1 booth 831 FORUM
Fraunhofer IOF
