It provides a fast and effective technical solution for aero-optical test and test
With the rapid development of aerospace industry, the research of aerooptics has received increasing attention. This research is critical to improving the optical imaging detection capability of high-speed aircraft, accurate tracking and targeting of airborne laser systems, and the performance of optoelectronic imaging systems, and can be extended to remote ground optoelectronic detection and satellite image correction technologies.
Aerooptics is designed to solve the refractive index problem caused by the change of complex density field during high speed flight by means of aerodynamic test and simulation calculation. This includes qualitative and quantitative analysis of the effects of light passing through complex flow fields such as high temperature, turbulence and shock waves through ground simulation tests to support high-speed vehicle technology.
As an interdisciplinary frontier research field, the exploration of aero-optical effects and their correction methods requires experiments and tests by integrating wind tunnel tests, optical measurements and other means to verify the model and establish the research basis. The FIS4 wavefront interference sensor provides a fast and efficient technical solution for aerooptics testing and testing.
Measurement advantage
No reference surface required to avoid impact
High energy pulse beam quality detection
Common channel interference, strong anti-noise ability
On-site, real-time, online detection
Industry application field
▎Aero-optical process inspection
▎Mach disk change process
▎Three dimensional refractive index field changes
To ensure the optical performance and reliability of security equipment to provide strong technical support
The construction and improvement of modern security systems largely depend on the integration and application of advanced optical technology. Optical technology plays a central role in improving the accuracy of weapon systems, enhancing night vision capabilities, and enabling long-range surveillance and target recognition. In order to ensure the strategic advantage of these systems and components on the battlefield, the precision inspection and calibration of optical components and systems becomes essential. Accurate optical measurement not only guarantees the performance of the equipment, but also directly relates to the success of the mission and the safety of the warfighter.
The high precision and high resolution measurement capabilities of the FIS4 wavefront interference sensor enable inspection and calibration of optical systems such as lenses, lenses, laser systems and other critical optical devices. By using an interferometer to measure the phase difference of the light waves, the shape and surface quality of the optical elements can be determined, thus ensuring their ideal performance during the manufacturing process and in actual use. The FIS4 wavefront interference sensor provides powerful technical support to ensure the optical performance and reliability of the equipment.
Measurement advantage
No reference surface required to avoid impact
High energy pulse beam quality detection
Common channel interference, strong anti-noise ability
On-site, real-time, online detection
Industry application field
▎DRONE
▎drone
▎SPYGLASS
Fine tuning of the optical system ensures optimal performance in critical missions such as satellite remote sensing, space exploration and interplanetary communications
Optical systems in the aerospace sector are sophisticated and need to deal with more demanding application scenarios. In order to ensure the stability and reliability of optical systems, they need to be accurately measured and calibrated during their design, manufacture and deployment. This requires the use of sophisticated and reliable metrological tools for the necessary quality control and performance verification.
The FIS4 wavefront interference sensor can be applied to the precision inspection of aerospace optical systems to ensure the consistency and long-term stability of system performance after launch. With the FIS4 wavefront interference sensor, aerospace engineers are able to fine-tune optical systems to ensure optimal performance for critical missions such as satellite remote sensing, space exploration and interplanetary communications.
Measurement advantage
No reference surface required to avoid impact
High energy pulse beam quality detection
Common channel interference, strong anti-noise ability
On-site, real-time, online detection
Industry application field
▎James Webb Space Telescope(JwST)
▎Large diameter surface shape detection device
▎Arizona University optical center large mirror shape detection
▎aeroplane
▎Space station
▎Space orbit
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