Company Profile

Founded in 2003 by Professor Zhou Bifang, former director of the Nanjing Astronomical Instruments Research Center at the Chinese Academy of Sciences, Intane Optics has grown into a national high-tech enterprise specializing in precision optical system solutions.

With a core competency in optical engineering, the company prides itself on a team of seasoned engineers skilled in the design, integration, assembly, testing, and manufacturing of advanced optical components. These components are critical to the performance of precision optical instruments.

As technology advances and industry demands grow, Intane Optics continuously innovates to meet the increasing requirements for the performance and quality of optical elements, ensuring the highest standards for our clients.

At Intane Optics, we are dedicated to achieving nanoscale precision in the production of optical components, including flat, spherical, aspherical, and freeform surfaces. Our 3,000-square-meter facility is equipped with a full suite of cutting-edge optical processing production lines.

We also specialize in developing advanced production equipment, such as swing-arm polishing, water-jet polishing, and Computer-Controlled Optical Surfacing (CCOS). Our state-of-the-art optical processing equipment includes a five-axis CCOS capable of handling diameters exceeding 2 meters, ion beam polishing, a 3-meter ring polisher, a 2-meter single-axis machine, CNC machining centers, Satisloh edge grinders, and Taylor Hobson non-contact profilometers.

To ensure the highest standards of accuracy and processing efficiency, We has made significant investments in testing equipment. Our facility is equipped with multiple 4D dynamic interferometers, ZYGO interferometers, a Zeiss coordinate measuring machine, and a 600mm plane interferometer. We currently house over 10 dynamic interferometers, 4 ZYGO interferometers, and a 600mm plane interferometer, ensuring precise quality control across all stages of production.

To further guarantee the reliability of our measurements, we have established a 200-square-meter constant-temperature environment to maintain optimal conditions for testing.