Reflection Gratings for 1064 nm

Specifications

Substrate Material: Fused Silica
Dimension (Length): 137 mm
Dimension (Height): 56 mm
Dimension (Thickness): 6.35 mm
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Features


  • High Diffraction Efficiency: Achieve a diffraction efficiency of ≥98.0% for optimal performance in laser applications.

  • Center Wavelength: Specifically designed for 1064 nm, ideal for Nd:YAG laser systems.

  • Multi-Layer Dielectric Coating: Provides enhanced durability and performance over a wide range of angles and wavelengths.

  • Customizable Grating Sizes: Available in sizes ranging from 12 x 10 mm to 132 x 67 mm, customizable to meet specific requirements.

  • Precision Grating Period: Features a grating period of 575 nm with a line density of 1739.1 lines/mm.

  • Polarization: Optimized for TE (s-polarization) to ensure high efficiency and performance.

  • Wide Angle of Incidence Range: Supports angles of incidence from 60° to 79°, allowing for versatile application use.

  • Angular Dispersion: Offers an angular dispersion range of -0.567°/nm to -0.201°/nm, depending on the center wavelength and angle of incidence.

  • High-Quality Substrate: Made from fused silica, specifically Heraeus Suprasil 3002, with a substrate thickness of 6.35 mm for stability and precision.

  • German Engineering: Developed by Gitterwerk GmbH, a pioneer in diffraction gratings, ensuring world-renowned efficiency and quality.

Applications


  • Laser Systems: Enhance the performance of laser systems by utilizing high-efficiency reflection gratings designed specifically for 1064 nm wavelength.

  • Optical Instruments: Improve the precision of optical instruments with multi-layer dielectric reflection gratings that offer superior diffraction efficiency.

  • Spectroscopy: Achieve accurate spectral analysis with gratings that provide consistent performance across a range of angles and wavelengths.

  • Telecommunications: Optimize signal processing in telecommunications with gratings that ensure high diffraction efficiency and low angular dispersion.

  • Scientific Research: Support advanced research applications with customizable grating designs tailored to specific experimental needs.

  • Industrial Applications: Enhance industrial laser applications with robust and reliable gratings made from high-quality fused silica substrates.