Transmission Gratings for 1030 nm

Specifications

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


  • High-Efficiency Gratings: Designed specifically for pulse compression at 1030 nm, these gratings offer exceptional diffraction efficiency of ≥98%, including AR coating.

  • Fused Silica Material: Made from Heraeus Suprasil 3002 with reduced OH content of <1 ppm, ensuring high optical quality and durability.

  • Customizable Substrate Thickness: Available in thicknesses of 6.35 mm and 3.00 mm, with customizable formats to meet specific demands.

  • Wide Range of Grating Periods: Grating periods range from 543 nm to 1000 nm, allowing for various line densities from 1841.6 l/mm to 1000.0 l/mm.

  • TE Polarization: Optimized for TE (s-pol.) polarization, ensuring high performance in specific laser applications.

  • Precise Angular Dispersion: Offers angular dispersion ranging from -0.333°/nm to -0.066°/nm, providing precise control over light diffraction.

  • Optimized Angle of Incidence: Designed for angles of incidence from 31.0° to 71.5°, tailored for specific application needs.

  • High Availability and Individual Design: Gitterwerk GmbH provides top conditions, high availability, and the option for individual grating design to suit unique requirements.

Applications


  • Pulse Compression: Fused silica transmission gratings are designed for high-efficiency pulse compression, making them ideal for applications in ultrafast laser systems.

  • Laser Systems: These gratings are optimized for a center wavelength of 1030 nm, suitable for various laser systems requiring precise wavelength control.

  • Optical Communication: With high diffraction efficiency, these gratings can be used in optical communication systems to manage signal dispersion and enhance performance.

  • Spectroscopy: The gratings' ability to disperse light efficiently makes them useful in spectroscopic applications for analyzing light properties.

  • Research and Development: Ideal for R&D in photonics and optics, these gratings provide reliable performance for experimental setups.

  • Custom Optical Solutions: With customizable substrate thickness and dimensions, these gratings can be tailored to specific optical setups and requirements.

  • High-Power Laser Applications: The gratings' high efficiency and low OH content substrate make them suitable for high-power laser applications where material integrity is crucial.