Transmission Gratings for VIS

Specifications

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


  • High-Efficiency Gratings: Our Fused Silica Transmission Gratings for VIS are designed to deliver exceptional efficiency, customized to meet your specific application needs.

  • Customizable Optical Specifications: Choose from a range of center wavelengths (450 nm to 671 nm) and grating periods (333 nm to 625 nm) to suit your requirements.

  • Versatile Polarization Options: Available in TE (s-pol.), TM (p-pol.), and unpolarized (TE+TM) configurations to match your optical setup.

  • Optimized Angle of Incidence: Our gratings are designed with angles of incidence ranging from 24.4° to 57.0° for optimal performance.

  • Superior Diffraction Efficiency: Achieve diffraction efficiencies of up to 97.5%, ensuring maximum light throughput.

  • Precision Angular Dispersion: Benefit from precise angular dispersion values, ranging from -0.101°/nm to -0.275°/nm, for accurate spectral separation.

  • Premium Substrate Material: Manufactured using Fused Silica: Heraeus Suprasil 3002, known for its low OH content (< 1 ppm) and superior optical quality.

  • Flexible Substrate Thickness and Formats: Available in substrate thicknesses of 6.35 mm and 3.00 mm, with popular formats customizable to your specific demands.

  • High Availability and Individual Design: We ensure high availability of our products and offer individual grating design to cater to unique project requirements.

  • Trusted Manufacturer: Gitterwerk GmbH, established in 2015, is your reliable partner for high-quality diffraction gratings, driven by a passion for perfection and innovation in the laser market.

Applications


  • Laser Spectroscopy: Enhance the precision and efficiency of laser-based spectroscopic measurements.

  • Optical Coherence Tomography (OCT): Improve imaging resolution and depth penetration in medical diagnostics.

  • Telecommunications: Optimize signal processing and wavelength multiplexing in fiber optic communications.

  • Laser Pulse Compression: Achieve shorter pulse durations for high-intensity laser applications.

  • Raman Spectroscopy: Increase the sensitivity and accuracy of chemical analysis.

  • Holography: Enhance image quality and detail in holographic displays and data storage.

  • Astrophysics: Improve the resolution and sensitivity of astronomical instruments.

  • Environmental Monitoring: Enhance the detection and analysis of atmospheric gases and pollutants.

  • Scientific Research: Support a wide range of optical experiments and innovations in research laboratories.

  • Industrial Applications: Improve precision in material processing and quality control systems.