Description
Discover the pinnacle of optical precision with the Laser-Line RMAX Mirrors by Rocky Mountain Instrument Co. These mirrors are meticulously engineered to provide exceptional performance in beam steering, focusing, and collimating applications. At the heart of their design is the use of multi-layer dielectric thin films, which ensure unparalleled reflectance at specific laser wavelengths. This makes them an ideal choice for high-power laser applications where precision and reliability are paramount.
The Laser-Line RMAX Mirrors are crafted with a focus on high reflectance for single laser wavelengths. This is achieved through sophisticated high-power coating designs that are standard for select wavelengths, ensuring that the mirrors meet the rigorous demands of advanced optical systems. The substrates of these mirrors are versatile, available in plano/plano, plano/concave, and plano/convex surfaces, providing flexibility to suit various optical configurations and requirements. Rocky Mountain Instrument Co. prides itself on a collaborative approach, working closely with customers to address even the most technically challenging requirements.
By engaging with clients during the early stages of development, RMI transitions prototype concepts into efficient, manufacturable solutions. This commitment to innovation and customer satisfaction is what sets Laser-Line RMAX Mirrors apart in the field of precision optics. Whether you are developing new laser systems or enhancing existing ones, these mirrors offer the reliability and performance needed to achieve your optical goals.
RMI Laser Line Mirrors - Si-Cu-Mo
Specifications
Substrate Material: | Mo, Cu, Si |
---|---|
Wavelength Range: | 193 – 193 nm |
Angle Of Incidence (AOI): | 45 deg |
Flatness (Coated Surface): | lambda/20 |
Surface Quality: | 40-20 scratch-dig |
Reflectivity (Rs, Rp): | 96.5 % |
Reflectivity @ 0 AOI: | >= 97% |
Diameter And Thickness: | Custom |
Features
- High Reflectance Design: Laser-Line RMAX Mirrors are specifically designed for high reflectance at a single laser wavelength, ensuring optimal performance in beam steering, focusing, and collimating applications.
- Advanced Coating Technology: Utilizes multi-layer, dielectric thin films with high power coating designs standard for select wavelengths, enhancing durability and efficiency.
- Versatile Substrate Options: Available with plano/plano, plano/concave, and plano/convex surfaces to suit various optical requirements.
- Material Variety: Constructed from high-quality materials including BK7, UVFS, FS, CaF2, Si, Cu, Mo, Supremax 33, and Zerodur for diverse application needs.
- Precision Surface Quality: Offers superior surface quality with specifications such as 10-5 for BK7, UVFS, FS, and Supremax 33, ensuring minimal imperfections.
- Exacting Tolerances: Features diameter tolerance of +0.000", –0.010", thickness tolerance of ±0.010", and radius tolerance of ±0.5% for precise engineering requirements.
- Optimal Reflectance Values: Achieves reflectance values of R ≥ 97% at 193 nm and R ≥ 99.7% at 355, 532, 1064 nm at 0º angle of incidence, ensuring high efficiency across multiple wavelengths.
- Customizable Angle of Incidence: Designed for 0º or 45º angles of incidence to accommodate different optical setups.
- Clear Aperture: Central 85% of diameter is clear, maximizing usable mirror area for laser applications.
- Collaborative Development: RMI emphasizes a collaborative approach with customers, transitioning prototype concepts to efficient, manufacturable solutions.
Applications
- Beam Steering: Precisely direct laser beams in optical systems.
- Laser Focusing & Collimating: Support laser beam shaping and alignment.
- High-Power Laser Systems: Compatible with systems requiring robust, high-reflectance mirrors.
- Scientific Research: Use in advanced experimental setups needing wavelength-specific reflectors.
- Industrial Laser Processing: Ideal for manufacturing processes that utilize precise laser delivery.
Frequently Asked Questions
What is the reflectance of Laser-Line RMAX Mirrors?
What are the materials used for RMI Laser Line Mirrors?
What is the purpose of RMI Laser Line Mirrors?
What are the substrates available for RMI Laser Line Mirrors?
What is the angle of incidence for RMI Laser Line Mirrors?
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