Lyncee Reflection Series
Time-resolved advanced topography solutions
Lyncee Reflection series is an optical instrument designed for real-time quantitative imaging and rapid measurement of opaque or transparent samples, based on digital holographic microscopy (DHM) technology. It is particularly ideal for applications in materials science.
Lyncee Reflection captures both intensity and phase information in a single acquisition without mechanical scanning. This enables 3D imaging, 4D tracking, thickness measurement, and precise localization of fine structures.
A wide range of hardware options are available, including multiple objective lens sets, a motorized stage, a stroboscopic unit, and additional accessories to meet diverse sample-handling and application requirements.
Lyncee Reflection software, Koala, enables fast and easy acquisition of topography parameters and has optional preset suites for one-click acquisition and analysis solutions.
Key Features
Lyncee Reflection Series: Workflow
Lyncee Reflection series is a non-destructive 3D and 4D topography technique. It records holograms using a digital camera and computationally reconstructs both the intensity image and the surface topography. DHM enables real-time, high-resolution, quantitative measurement of surface topography with fast digital focalization and no need for fine mechanical adjustments.
Lyncee Reflection Head Models
Objective Lens Sets
Objective turret supports up to six from 1.25 × to 100 × magnification, which allows easy switching between wide-field overview and high-magnification inspection.
Motorized Sample Stage
Motorized sample stages enable to focalize the sample by adjusting its vertical (Z) position and to handily move samples along the X and Y directions. They can be controlled either by a dedicated window of Koala acquisition and analysis software, or by using a joystick improving the ease of use.
Stroboscopic Unit
Specialized for MEMS analysis, the stroboscopic unit works with Koala MEMS Analyzer Suite to synchronize MEMS excitation signal and hologram acquisition signal enabling precise topography measurements of the MEMS during excitation period with synchronization precision of < 5 ps. The intuitive input/output allows operators to drive MEMS devices from 1 Hz to 25 MHz, simply by connecting the MEMS.
Vacuum and Thermal Chambers
Lyncee Reflection has two optional vacuum/thermal chamber modules with optical windows enabling safe study of samples under various thermal and pressure conditions. The chambers are equipped with ports to purge the chamber of a desired gas.
Rotating Stage
For cylindrical samples or samples with curved surfaces, Lyncee Reflection offers a motorized rotating stage that is compatible with any motorized or manual XYZ linear stage. The separation between the two driving rollers can be adjusted to accommodate samples of any diameter. A dedicated interface allows users to control the displacement both in the axis of symmetry of the sample and in rotation to measure the entire surface of the sample. It is an ideal for measuring cylindrical components such as cylinders, shafts, metal rolls, and glass tubes.
Principle of Digital Holographic Microscopy
DHM Technology
DHM is a patented technology that records holograms with a camera through
interference between an object beam fro the sample and a reference beam.
Softwares
