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GoPhotonics has featured a versatile portfolio of Optical Mirrors engineered to support demanding laser, photonics, imaging, and beam-steering applications across scientific research, industrial processing, aerospace, and defense sectors. The selection includes laser line mirrors, off-axis parabolic mirrors, dielectric mirrors, and precision aluminum-coated mirrors designed to deliver high reflectivity, superior wavefront quality, and reliable performance across UV, visible, infrared, and ultrafast laser wavelengths.

D430100 Optical Mirror from ESCO Optics

The D430100 Optical Mirror from ESCO Optics is designed for optical systems that require precise beam control, high reflectivity, and dependable optical performance. Manufactured using high-quality optical materials and precision polishing techniques, the mirror provides excellent surface quality and dimensional accuracy for demanding photonics applications.

Suitable for beam steering, optical instrumentation, metrology systems, and laboratory setups, the mirror helps maintain beam integrity while minimizing wavefront distortion. Its durable reflective coating and precision-finished surface make it a reliable choice for OEM integration and research environments where consistent optical performance is essential.

MB11-038 Optical Mirror from Tower Optical Corporation

The MB11-038 from Tower Optical Corporation is a precision circular mirror fabricated from BK7 optical glass and features a durable aluminum reflective coating. With a diameter of 38 mm and thickness of 4 mm, the mirror offers λ/5 surface flatness at 632.8 nm and a 40-20 scratch-dig surface quality, enabling dependable performance in a wide range of optical assemblies.

Designed for alignment systems, beam-folding arrangements, educational laboratories, and imaging instruments, the mirror combines optical accuracy with robust construction. The aluminum coating provides efficient broadband reflection, making the component suitable for both visible-light applications and general-purpose optical system integration.

MPD229H-M01 Off-Axis Parabolic Mirror from Edmund Optics

The MPD229H-M01 from Edmund Optics is a precision 90° off-axis parabolic mirror engineered for broadband infrared applications that require aberration-free beam focusing and collimation. Featuring a protected gold coating optimized for wavelengths from 800 nm to 20 µm, the mirror delivers high reflectivity across a broad spectral range while eliminating chromatic aberrations commonly associated with refractive optics.

Manufactured from aluminum and incorporating a 3 mm central hole, the mirror provides reflected wavefront error better than λ/4 at 633 nm. Its off-axis design enables compact optical layouts and unobstructed beam paths, making it particularly useful in spectroscopy systems, thermal imaging instruments, infrared sensing platforms, laser beam delivery systems, and scientific research applications.

10QM20HM.35-G Laser Mirror from Newport

The 10QM20HM.35-G from Newport is a high-performance dielectric laser mirror developed for Nd laser systems operating at 532 nm. Designed for use at a 45° angle of incidence, the mirror delivers reflectivity greater than 99% for both s- and p-polarized light, ensuring efficient beam handling in high-power laser environments.

Constructed from UV-grade fused silica and coated with Newport's ultra-hard dielectric coating technology, the mirror combines exceptional optical durability with high laser damage resistance. The component features λ/10 surface flatness and 10-5 scratch-dig surface quality, making it suitable for precision laser processing, semiconductor manufacturing, scientific instrumentation, and advanced beam delivery applications where optical accuracy and long-term stability are critical.

PP-UVFS-25.4-6.35-LLM247 Laser Mirror from OPTOMAN

The PP-UVFS-25.4-6.35-LLM247 from OPTOMAN is a high-reflectivity laser mirror specifically engineered for Ho laser systems operating at 2100 nm. Built on a UV fused silica substrate and coated using advanced ion beam sputtering (IBS) technology, the mirror achieves reflectivity exceeding 99.9% while maintaining exceptional coating durability and environmental stability.

The mirror offers λ/10 surface flatness and 10-5 scratch-dig surface quality, supporting precise beam manipulation in demanding laser applications. Its low-loss coating design and high optical quality make it suitable for high-energy laser systems, medical laser equipment, materials processing, scientific research, and infrared photonics applications that require efficient power handling and superior beam quality preservation.

These optical mirrors demonstrate the breadth of mirror technologies available for modern photonics systems, offering engineers and researchers solutions optimized for beam steering, laser processing, spectroscopy, imaging, metrology, and advanced scientific instrumentation. By combining precision optical substrates, specialized reflective coatings, and application-specific designs, these mirrors enable reliable performance across a wide range of laser and optical platforms operating from the visible to the infrared spectrum.

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