For Wavefront Sensing Measurement, everyone has different special concerns about it, and what we do is to maximize the product requirements of each customer, so the quality of our Wavefront Sensing Measurement has been well received by many customers and enjoyed a good reputation in many countries. BOJIONG Wavefront Sensing Measurement have characteristic design & practical performance & competitive price, for more information on the Wavefront Sensing Measurement, please feel free to contact us.
BOJIONG has a strong technical team, professional service and better prices. If you are interested in Wavefront Sensing Measurement products, please contact us. We have nearly 30 years of experience and deep theoretical foundation in the field of wave front sensing and measurement. The working principle of the Wavefront Sensing Measurement is that the wave front to be detected is diffracted by randomly coded mixed grating, and a total of four beams of diffracted light are generated in two orthogonal directions respectively. The four beams of diffracted light interfere on the imaging surface, and the transverse shear interference fringe of the four wave fronts can be obtained. Advantages of wave front sensing measuring equipment: single optical interference strong vibration resistance, no reference light, simple layout, no special interference devices, quick and easy adjustment, real-time imaging, no phase shift process, especially suitable for high-precision detection in factory environments.
BOJIONG Wavefront Sensing Measurement products are suitable for laser beam wavefront detection, adaptive optics, planar surface shape measurement, optical system calibration, optical window detection, optical plane, spherical surface shape measurement, surface roughness detection, wafer surface roughness detection, silicon and glass substrate microstructure measurement, aerooptics, high-speed flow field, gas plasma density measurement, Optical system aberration measurement, material internal lattice distribution measurement, metasurface, hyperlens wave front measurement, marker-free 3D living cell detection, biological tissue detection, germ cell detection, micronano structure detection, etc.