en.Wedoany.com Reported - LIDAX is developing high-precision optical systems for space and scientific applications, with a technology portfolio designed to meet observation and measurement needs in demanding research environments. The company's operations encompass the design and manufacturing of optical systems that integrate optical engineering, precision mechanics, and advanced control technologies, applied in fields such as Earth observation, deep space exploration, scientific instruments, and free-space optical communications. To meet the requirements of next-generation space missions, these systems support multiple spectral bands, including ultraviolet, visible light, infrared, and X-rays.

Within LIDAX's product range, telescopes and optical objectives are core components that maximize light collection efficiency and imaging quality across multispectral bands. These high-precision optics form the foundation of observation systems for scientific research and space missions. The company also offers space-grade laser collimators, designed using structural-thermal-optical performance analysis to maintain excellent performance under structural, thermal, and optical constraints, suitable for free-space optical communications and scientific applications with stringent laser pointing accuracy requirements.

LIDAX also develops customized focal plane assemblies capable of capturing faint stellar signals and high-resolution Earth images with high sensitivity across the ultraviolet to X-ray bands. These assemblies are designed to maximize data collection, meeting the needs of advanced scientific observation and remote sensing applications. The company continues to promote its optical technologies into emerging space and scientific fields, supporting diverse missions from deep space exploration to Earth observation.

The company's optical technologies have been applied in numerous international space missions. LIDAX supported the James Webb Space Telescope by validating its mirror movement system under cryogenic vacuum conditions at 25K. It also led the adaptation of the SMARTLID3 ground-based lidar system for space operations, ensuring compliance with ECSS standards. Other contributions include: participation in the BepiColombo mission via the MIXS focal plane, involvement in EarthCARE through active co-alignment sensor technology, contribution to PLATO by designing and manufacturing 26 CCD-based focal plane assemblies, support for the Meteosat Third Generation weather satellite by providing opto-thermo-mechanical systems for the IRS and FCI payloads, participation in the ExoMars rover through a 532 nm Raman laser optical head, and involvement in the MORERA project by developing a compact refractive telescope operating in the 8 to 12 micrometer thermal infrared band.

LIDAX's engineering and verification infrastructure supports the aforementioned developments, including ISO 5 and ISO 7 cleanrooms, cryogenic testing facilities, vacuum furnaces, vibration and thermal testing systems, helium leak testing laboratories, and specialized equipment for optical integration and verification. These facilities enable the company to design, integrate, verify, and qualify complex optical and opto-mechanical systems for demanding aerospace and scientific applications. By combining high-precision optical design, opto-mechanical engineering, advanced testing capabilities, and multispectral expertise, LIDAX provides optical systems that support space exploration, Earth observation, scientific research, and optical communications. Its technologies continue to serve major international missions and drive the development of next-generation instruments.

LIDAX is a space engineering company headquartered in Madrid, Spain, founded in the early 21st century. The company specializes in the design, development, integration, and manufacturing of optical systems, thermal control systems, cryogenic systems, and advanced aerospace technologies for space, scientific, and security applications. It collaborates with organizations such as the European Space Agency, Airbus, Thales Alenia Space, OHB System AG, and the Spanish National Research Council, providing high-precision engineering solutions for complex international space missions and scientific research.

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