Mirrors are essential optical components designed to precisely redirect, reflect, or shape light across a wide range of wavelengths and applications. By utilizing carefully selected substrate materials and high-performance reflective coatings, optical mirrors ensure excellent reflectivity, wavefront accuracy, and long-term stability. They are widely used in laser systems, imaging setups, spectroscopy, scientific research, and industrial optical assemblies, where reliable and accurate light control is critical.
Eata Ray provides flexible customization solutions for optical mirrors to meet specific system requirements across research, industrial, and OEM applications. By tailoring substrate materials, surface accuracy, coating design, and mechanical dimensions, we help customers achieve optimal optical performance, durability, and integration efficiency. From prototype development to volume production, our customized mirror solutions are engineered to deliver consistent quality and reliable performance in demanding optical environments.
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Eata Ray follows a structured and efficient customization process to ensure that each optical mirror meets specific application requirements in terms of optical performance, durability, and system compatibility. From initial consultation to final delivery, our engineering team works closely with customers to provide reliable and high-quality customized mirror solutions.
Eata Ray offers a comprehensive portfolio of high-quality optical mirrors, covering standard and advanced configurations to meet diverse experimental and industrial requirements. From precision flat and spherical mirrors to wavelength-specific UV mirrors, laser-grade mirrors, and adaptive deformable mirrors, Eata Ray provides reliable solutions with excellent optical performance, coating durability, and customization options for demanding applications.
Please click on the filter box below to quickly locate the mirrors products you need.
Flat Mirror
Spherical Mirror
UV Mirror (Ultraviolet‑reflective)
90° Mirror (Right‑angle Mirror)
Laser Mirror
Deformable Mirror
Flat mirrors are designed with highly polished, optically flat surfaces to reflect light without introducing distortion or focal changes. They are commonly manufactured using glass, fused silica, or metal substrates with aluminum, silver, or dielectric coatings. Flat mirrors are fundamental components in optical systems where accurate beam steering, alignment, and reflection are required, maintaining beam quality and wavefront integrity across visible, UV, or IR wavelengths.
Spherical mirrors feature a curved reflective surface that can converge or diverge light, depending on whether they are concave or convex. They are widely used for beam focusing, imaging, and light collection. Compared with lenses, spherical mirrors eliminate chromatic aberration and are suitable for broadband applications. High-precision surface quality ensures accurate focal length and minimal optical aberrations.
UV mirrors are specially coated to provide high reflectivity in the ultraviolet spectral range while maintaining low absorption and high damage resistance. Typically fabricated from UV-grade fused silica or calcium fluoride substrates, these mirrors are optimized for applications involving deep-UV or near-UV light. Their coatings are designed to withstand harsh UV exposure without degradation.
90° mirrors, also known as right-angle mirrors, are designed to redirect light paths by exactly 90 degrees within compact optical systems. They are often prism-mounted or configured for easy integration into confined setups. With precise angular accuracy and stable reflective coatings, these mirrors help optimize space utilization while maintaining beam alignment and optical performance.
Laser mirrors are engineered to withstand high laser power and energy densities while maintaining extremely high reflectivity at specific laser wavelengths. They typically feature advanced dielectric coatings with high laser-induced damage thresholds (LIDT). Laser mirrors are critical components in resonators, beam delivery systems, and precision laser processing equipment.
Deformable mirrors are adaptive optical components capable of actively modifying their surface shape in real time. Using actuators controlled by feedback systems, they compensate for optical aberrations caused by atmospheric turbulence, thermal effects, or system imperfections. Deformable mirrors play a key role in advanced optical systems requiring dynamic wavefront correction.
With a comprehensive range of standard and customized optical mirrors, Eata Ray is committed to delivering reliable, high-performance solutions for scientific research, industrial manufacturing, and advanced optical systems. Whether for precision alignment, high-power laser applications, or adaptive optics, our mirror solutions are designed to support your project with consistent quality, technical expertise, and responsive service. If you would like to learn more about product details or technical specifications, please feel free to contact us at any time.
For Research or Industrial Raw Materials, Not For Personal Medical Use!
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