- Ultra-high diffraction efficiency >99%
- Optimized for CPA pulse compressor systems
- Precision spectral dispersion for ultrafast lasers
- Excellent thermal stability and power handling
- Supports broad wavelength ranges
- Compatible with high-power femtosecond laser systems
- High damage threshold for demanding applications
- Reliable long-term optical performance
Transmission Gratings
Transmission and reflection gratings designed for high-performance ultrafast laser systems and CPA pulse compressors. These gratings utilize advanced Gitterwerk technology to deliver exceptionally high diffraction efficiency (>99%), ensuring minimal energy loss and precise spectral dispersion.
Optimized for femtosecond and picosecond laser systems, the gratings support a wide range of wavelengths including 800 nm, 1030 nm, and broadband spectral regions. Their precision-engineered structures enable stable pulse compression, high power handling capability, and excellent beam quality for demanding scientific and industrial applications.
Available in multiple wavelength ranges, these gratings provide reliable dispersion control for ultrafast optics setups, laser amplification systems, and high-energy research environments.
Specifications
1030 nm Gratings
Optimized for Yb-based femtosecond laser systems and CPA pulse compressors operating around 1030 nm.
800 nm Gratings
Designed for Ti:Sapphire ultrafast laser systems widely used in femtosecond spectroscopy and microscopy.
450–980 nm Gratings
Broadband gratings covering visible to near-infrared wavelengths for versatile optical and spectroscopy applications.
1040–1075 nm Gratings
High-performance gratings tailored for Yb laser systems operating within this extended wavelength region.
1120–2100 nm Gratings
Specialized gratings designed for infrared and mid-infrared optical systems and advanced research setups.
Applications
- Chirped Pulse Amplification (CPA) systems
- Femtosecond and picosecond laser compression
- Ultrafast spectroscopy
- High-precision laser material processing
- Optical parametric amplifier systems
- Scientific research and photonics laboratories
- High-power laser development and testing
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