Computer-Generated Holograms
With over 20 years of experience in Computer-generated holograms (CGHs), we are your trusted partner for high precise applications. We desing diffractive optics for the metrology of aspheres, spheres, cylinders or free-form surfaces. We manufacture CGHs for a wide range of applications and all types of optical glasses, metals and crystals. The more demanding your project, the more interesting it is for us.
Computer-generated holograms are the gold standard for checking the shape of optical surfaces and precisely adjusting complex optical systems. Follow us into the third dimension! Follow us into the third dimension!
Interferometric Testing of any Optical Surface
CGHs generate almost any wavefront and expand the possibilities of the interferometer for testing form deviations of any optical surface. They also provide optimum results for the alignment of optical elements and testing of lens centration. Our experts calculate the diffractive optics of the CGHs so specifically that the plane wave emitted by the interferometer is converted into a wavefront that is individually adapted to the test task.
Perfect Null Lens: DIOPTIC CGH
Our diffractive null lenses (DNL-type CGHs) are ideal reference optics for measuring aspherical or cylindrical optical surfaces. Testing free-form surfaces or aspheric-diffractive lenses is also no problem. By combining the CGHs with a spherical interferometer objective (transmission sphere, TS), almost any surface geometry and the overall performance of optical systems can be tested. Based on CGHs, we offer you test lenses for spherical and aspherical metrology.
DIOPTIC Technology for Interferometric Precision Alignment
Using the innovative method of interferometric precision alignment, optical systems can be adjusted with an accuracy of a few µm. The individual optical components are aligned with pinpoint accuracy based on the multi-zone CGHs calculated individually for each system. Even systems whose detection spectrum lies far outside of visible light (e.g., radio telescopes) or whose operating conditions cannot be easily reproduced during production (e.g., temperature in space telescopes) can be adjusted with the same accuracy.
Testing Cylindrical and Spherical Surfaces with CGHs
Our diffractive test lenses are particularly suitable for testing large surfaces with large radii of curvature. For precision measurement of cylindrical and spherical surfaces, we offer CGHs with an integrated Fizeau reference surface. Testing of concave and convex surfaces is equally possible. This allows cylindrical and spherical lenses to be tested with high precision.
»Besides the remarkable performance we reach adopting DIOPTIC DFNL-type CGHs, very few companies can be so collaborative in the design phase and accurate on delivery dates.«
Massimiliano Rossi, Media Lario Technologies S.r.l., Italy
What Sets Our CGHs Apart
Customized Diffractive Optics
Our CGHs are individually designed for your testing application and manufactured to the highest quality standards (ISO 9001:2015). This means that almost any optical surface can be tested. Testing of aspherical diffractive optics is also possible.
Simple Adjustment
Simple adjustment, installation, and measurement in just a few steps: Our alignment holograms and focus beams facilitate quick and easy alignment of the test specimen. Our alignment beams can also be used to probe markers and fiducials on the optomechanics.
Detailed Design Report
Our CGH designs are carefully reviewed. Manufacturability as well as tolerance analysis and performance are taken into account from the initial idea through to realisation. Each CGH receives a specific design and manufacturing report.
Our CGHs for Your Application
Based on CGHs, we develop and supply diffractive optical elements (DOEs) for a range of applications, including laser beam shaping and precision metrology. Our customers around the world rely on our high-precision, patented systems and easy-to-handle products, even when observing distant galaxies.
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