Easy to work with and reliable, these rotation stages enable perfect alignment for our family of Wavefront sensors. A must-have to ensure high-quality and repeatable measurements.
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Complete characterization of beams hosting orbital angular momenta
Alok Kumar Pandey was the lead author in our recently published paper "Shack-Hartmann Wavefront Sensing of Ultrashort Optical Vortices". Based upon his work at LASERIX laboratory of the University of Paris-Saclay, in collaboration with Imagine Optic and...
The dichroic beam-splitter of EUCLID telescope will be characterized by Imagine Optic’s OBSERVE.
Imagine Optic has been working for the European Space Agency (ESA) since last Summer on designing an optical bench to characterize the dichroic beam-splitter of the EUCLID telescope. EUCLID's main mission is to map dark matter throughout the universe with...
Optical Engineer Companion
Optical Engineer Companion - OverviewHome / Optical Engineer Companion - OverviewTo me the top 3 advantages of the OEC are, first you have instant access to the visualization, there is no post-processing. Second I would put the fact that you can use it outside the...
Nuclear pore complex imaging using adaptive optics
The group of Siegfried Musser from Texas AM University recently published an article in Nature Cell Biology where they used a MIRAO 52E deformable mirror to perform nuclear pore complex imaging using adaptive optics in super resolution. Super resolution...
SMLS Laser Diodes
SMLS Laser Diodes are single-mode calibrated optical metrology sources. They ideally combine with our R-FLEX metrology platforms in the VIS-NIR or the SWIR bandwidth. Custom SMLS Laser Sources are available upon request on top of the 5 standard wavelengths.
The Optical Engineer Companion
The Optical Engineer Companion is an optical metrology system comprising compatible and complementary optical hardware, software and accessories. It spans 800+ combinations and covers a wide range of uses and applications. The Companion's modularity and clever design...
HASO Multispectral
Spectrally resolved wavefront sensor A very accurate, fast and versatile instrument for wavefront sensing , the HASO Multispectral is the first-ever spectrally-resolved wavefront sensor. Its wide spectral range coupled to the powerful HASO4-Broadband enables full characterization of TW/PW lasers’ performances, and optimization of the peak intensity on target. The HASO Multispectral builds on 25 years of expertise at Imagine Optic in providing high-end Shack-Hartmann sensors for metrology, adaptive optics and lasers. Check out the HASOs Table to see our Full HASO SERIES, compare specs and choose what fits your requirements !!
Adaptive Optics Light-Sheet Microscopy for functional Neuroimaging
Watch or rewatch the presentation given by Antoine Hubert (Imagine Optic and ESPCI) at the European Conference on Biomedical Optics (ECBO) on June 21st. Antoine presents his latest results on an Extended-Scene Shack-Hartmann wavefront sensing-based adaptive optics...
WaveSuite goes full 64 bits: 3x processing speed, no-limit RAM & M2
WaveSuite 4.3 optical metrology and adaptive optics software completes the full transition to 64-bit compilation and overhauls previous limitations in RAM management and processing speed linked to 32-bit architecture legacy. This version of WaveSuite is a landmark for...
Adaptive optics enables high-resolution, dual-view light-sheet microscopy through a tilted coverglass
Correction of static aberrations involved in tilted objective geometries restores the performance and full versatility of open-top light-sheet configurations. Even if many optical geometries have been proposed in light-sheet microscopy, in particular regarding the...
REALM, aberration correction for PALM/STORM microscopy – webinar
The complexity of the aberration detection and correction process for PALM/STORM microscopy in biological samples has long been a limiting factor for widespread use of adaptive optics in biological imaging. The closed-loop...