Laser mirrors are essential components in optical systems, enabling precise control and manipulation of laser beams. They play a vital role in directing, shaping, and enhancing laser performance across a variety of applications, from scientific research to industrial processing.
Designed for diverse laser technologies, these mirrors deliver high reflectivity, durability, and stability across different wavelength ranges. Their coatings and substrates can be customized to meet specific requirements, ensuring optimal performance in demanding environments.
LASER MIRRORS FOR HARMONIC WAVELENGTH SEPARATION
Our dichroic mirrors enable precise separation of 2nd and 3rd harmonic wavelengths with reflectance and transmittance above 99.5%, allowing laser systems to achieve cleaner beam profiles and higher efficiency. This precision supports ultra-short pulse lasers in applications such as material processing and scientific research, where wavelength purity and stability are critical.
LASER SCANNING MIRRORS FOR GALVANO APPLICATIONS
Coated with the innovative Silflex® material, these scanning mirrors maintain over 99% reflectivity across a vast wavelength range (450 nm to 5000 nm), enabling high-speed, high-accuracy beam steering. Their optimized flatness and low stress design reduce distortion and improve processing precision, empowering laser marking, cutting, and engraving systems to deliver superior quality and throughput.
TI:SAPPHIRE LASER LINE MIRRORS
Designed for Ti:Sapphire lasers, these mirrors provide ultra-high reflectivity (>99.7%) and minimized optical losses, enabling lasers to operate at peak power with enhanced beam quality. Their durability and stability reduce downtime and maintenance costs, supporting demanding applications like micro-machining, medical device manufacturing, and precision engraving.
LASER BEAMSTEERING MIRRORS
With reflectivity exceeding 98% in the UV range and over 99% in the visible spectrum, our beamsteering mirrors enable precise and reliable control of laser beams in complex optical setups. Their superior surface quality and durability support consistent performance in applications ranging from scientific instrumentation to industrial laser systems.
LASER CAVITY MIRRORS
With reflectance greater than 99.995% and ultra-low losses, our laser cavity mirrors deliver exceptional stability and precision for gas laser tubes. Designed with custom curvatures and superior surface polish, they enable accurate mode control and spectral purity in stabilized laser systems, interferometers, and metrology applications. Their low side-line suppression and precise outcoupler transmittance ensure optimal laser performance in demanding scientific and industrial environments.
RING LASER GYROSCOPE MIRRORS
Designed with ultra-low absorption and scattering losses, our mirrors and outcoupling coatings ensure exceptional performance and durability in demanding plasma environments. With precision Ion Beam Sputtering (IBS) coatings, they deliver outstanding spectral quality and long-term stability, enabling highly accurate rotation sensing for navigation and guidance systems in aerospace and defense applications.
Explore the datasheets below for detailed specifications, coating technologies, and substrate options. Materion's mirrors empower your laser systems to reach new levels of performance, reliability, and innovation.
Benefits
- Clearer, more precise laser beams for better cutting, engraving, and marking
- Higher laser power handling for faster and more efficient processing
- Stable and consistent laser performance, reducing downtime and maintenance
- Accurate wavelength separation for cleaner, sharper laser outputs
- Fast and precise beam scanning for detailed and complex laser work
- Safer and clearer imaging in medical laser treatments
- Reliable operation in harsh environments and demanding industrial settings
- Custom solutions that fit perfectly into your unique laser system
- Improved overall laser system efficiency and product quality
Applications
- Laser material processing (cutting, engraving, welding, marking)
- Ultra-short pulse and harmonic wavelength laser systems
- Galvanometer-based laser scanning and beam delivery
- Ti:Sapphire laser systems for micro-machining and medical devices
- Ophthalmic laser therapy and surgical instruments
- Industrial CO₂ laser systems for manufacturing and dynamic scanning
- Scientific research and high-precision optical instrumentation
- Semiconductor inspection and microfabrication
- Aerospace and defense laser applications