RMI Laser Line Mirrors - CaF2
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United States
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On FindLight:
since 2015
Description
The Laser-Line RMAX Mirrors from Rocky Mountain Instrument Co. are meticulously crafted for precision and reliability in beam steering, focusing, and collimating tasks. These mirrors are engineered to offer high reflectance at specific laser wavelengths, making them a preferred choice for applications requiring exceptional optical performance. The use of multi-layer, dielectric thin films ensures that these mirrors provide superior reflection properties, tailored to meet the demanding standards of laser applications.
Each mirror is constructed using high-quality substrates available in plano/plano, plano/concave, and plano/convex surfaces. This variety allows for flexibility in design and application, catering to the specific needs of your optical setup. The standard high-power coating designs ensure that the mirrors can handle select wavelengths with ease, providing durability and longevity even under intense laser exposure.
Rocky Mountain Instrument Co. prides itself on a collaborative approach, working closely with clients to transform prototype concepts into efficient, manufacturable solutions. This dedication to customer satisfaction and technical excellence ensures that the Laser-Line RMAX Mirrors not only meet but exceed the expectations of the most technically demanding applications. Whether in the early stages of development or ready for production, these mirrors stand as a testament to RMI's commitment to quality and innovation in the field of optics.
RMI Laser Line Mirrors - CaF2
Specifications |
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|---|---|
| Substrate Material: | Calcium Fluoride |
| Wavelength Range: | 193 – 193 nm |
| Flatness (Coated Surface): | lambda/2, lambda/4 |
| Surface Quality: | 20-10 scratch-dig |
| Reflectivity (Rs, Rp): | 97 % |
| Reflectivity @ 45 AOI: | >= 96.5% |
| Thickness And Diameter: | Custom |
Features
- High Reflectance Design: Laser-Line RMAX Mirrors are engineered for superior reflectance at specific laser wavelengths, ensuring optimal performance in beam steering and focusing applications.
- Advanced Coating Technology: Utilizes multi-layer, dielectric thin films for high power coating designs, standard for select wavelengths.
- Versatile Substrate Options: Available in plano/plano, plano/concave, and plano/convex surfaces, catering to diverse optical needs.
- Material Variety: Constructed from high-quality materials including BK7, UVFS, FS, CaF2, Si, Cu, Mo, Supremax 33, and Zerodur.
- Precision Surface Figure: Offers exceptional surface accuracy with specifications such as λ/20 for plano substrates at 633 nm.
- Superior Surface Quality: Ensures high-quality finishes with surface quality standards like 10-5 S1 for BK7, UVFS, FS.
- Strict Dimensional Tolerances: Diameter tolerance of +0.000", –0.010" and thickness tolerance of ±0.010" for precise optical performance.
- High Reflectance Efficiency: Achieves reflectance of R ≥ 99.7% at 0º for wavelengths like 355, 532, and 1064 nm, ensuring minimal light loss.
- Customizable Bevels and Wedge: Features bevels of 0.02" at 45º typical and a wedge of ≤ 3 arc minutes for tailored optical setups.
- Clear Aperture: Utilizes a central 85% of the diameter, maximizing the effective optical area.
Applications
- Laser Beam Steering: Precise redirection of laser beams in optical systems.
- Laser Focusing and Collimation: Shaping and aligning laser output beams.
- High-Power Laser Systems: Reflective components in industrial and scientific laser setups.
- Scientific Research: Wavelength-specific optics for experimental laser applications.
- Optical Instrumentation: Integration into precision measurement and laser diagnostics equipment.
Frequently Asked Questions
Laser-Line RMAX Mirrors are designed for high reflectance at a single laser wavelength, with R ≥ 97% at 0º and R ≥ 96.5% at 45º for 193 nm wavelength, and R ≥ 99.7% at 0º and R ≥ 99.4% at 45º for 355, 532, and 1064 nm wavelength.
Substrates are available with plano/plano, plano/concave, and plano/convex surfaces.
Laser-Line RMAX Mirrors are used for beam steering, focusing, and collimating.
The diameter tolerance for Laser-Line RMAX Mirrors is + 0.000", – 0.010".
RMAX Mirrors utilize multi-layer, dielectric thin films.