FIS4 UHR-C Wavefront Detector

In the field of wavefront sensing, the BOJIONG FIS4 UHR- C Wavefront Detector

 represents a significant technological leap. Compared to traditional microlens array Hartmann sensors, BOJIONG not only achieves a substantial breakthrough in the number of phase points, offering finer resolution and richer detail features, but also demonstrates superior performance in adaptive bandwidth and dynamic range.  This means the BOJIONG FIS4 UHR- C Wavefront Detector is capable of handling a broader and more complex range of measurement needs and environmental conditions, bringing users unprecedented measurement flexibility and applicability.

The ultra-high definition resolution of the BOJIONG sensor reaches 512×512 (262,144 phase points), complemented by its wide spectral response from 400 to 900 nanometers, ensuring high accuracy and reliability under various optical conditions. Furthermore, it supports the display of 5 frames of full-resolution real-time 3D results, providing users with immediate, dynamic measurement feedback, significantly enhancing work efficiency. Choosing the BOJIONG FIS4 UHR- C Wavefront Detector means choosing a wavefront sensing solution with higher resolution, wider range, and greater efficiency.

Specification ：

Feature：

◆ 100% domestically developed

◆ Ultra-high resolution of 512 × 512 (262144) phase points

◆ Single-path light self-interference, no reference light required

◆ Wide spectrum 400nm~900nm band

◆ 2nm RMS high phase resolution

◆ Extremely strong vibration resistance, no need for optical vibration isolation

◆ With laser interference fringe suppression design

◆ Support collimated beams and large NA converging beams

◆ Using semiconductor refrigeration

  Application：

This BOJIONG  FIS4 UHR- C Wavefront Detector  used in laser beam wavefront detection, adaptive optics, surface shape measurement, optical system calibration, optical window detection, optical plane, spherical surface shape measurement, surface roughness detection.

  Details:

The Bojiong FIS4 UHR-C  wavefront detector was developed by a team of professors from Zhejiang University and Nanyang Technological University, Singapore. It aims to assist scientific research and high-precision industrial scene development. Higher resolution can provide more detailed information in wavefront detection. Ultra-high resolution 512 × 512 (262144) phase points, 400-900nm wide spectrum response, 5 frames of full-resolution real-time 3D results display, providing an ideal wavefront sensing measurement tool for laser beam wavefront detection, adaptive optics, plane surface measurement, optical system calibration, optical window detection, optical spherical measurement, surface roughness detection, surface micro-contour, etc. Patented random coded four-wave diffraction technology is used to achieve single-channel wavefront self-interference. The interference occurs at the back image plane position. The coherence requirements of the light source are low, and no phase shift is required. Ordinary imaging systems can achieve interference measurement. It has ultra-high shock resistance and ultra-high stability, and can achieve nanometer-level precision measurement without vibration isolation. Compared with the microlens array Hartmann sensor, it has more phase points, wider adaptive band range, larger dynamic range, and lower price.