In femtosecond laser systems, ensuring that the laser beam maintains its temporal characteristics and can withstand high peak intensities is crucial. Have you ever worried about the following: Are these standard mirrors suitable for my femtosecond laser system? Can they preserve the temporal characteristics of the laser beam? Can they withstand high peak intensities? If your system uses a low dispersion 1030nm mirror, these issues will be easily resolved.

The low dispersion 1030nm mirror is a high-performance optical component specifically designed for Ytterbium (Yb) femtosecond laser systems. Its main features include high reflectivity and low Group Delay Dispersion (GDD), which are designed to minimize dispersion effects and effectively maintain the temporal structure of the laser beam. This mirror is particularly suitable for femtosecond laser pulse systems, as it ensures that the laser pulse maintains its original broadband characteristics and temporal integrity after reflection, thus improving the system's performance and stability.

Around the 1030nm wavelength, the reflectivity of the low dispersion mirror can typically reach over 99.9%, effectively reducing energy loss and ensuring high efficiency in long-term operation of the laser system. The mirror design utilizes optimized dielectric coatings, significantly reducing group delay dispersion and minimizing pulse broadening or distortion caused by dispersion, while maintaining high reflectivity across a broad wavelength range. It not only efficiently reflects light at the 1030nm wavelength but also provides efficient reflection within the 1020-1040nm band, fully accommodating the spectral characteristics of femtosecond laser pulses and ensuring high-precision control of the laser.

Precautions: To ensure optimal performance, it is recommended to store and use the mirror in an environment at 25°C with a relative humidity of 40%–60%. If the mirror surface becomes contaminated, gently wipe it with 99% or higher alcohol and a lint-free lens cleaning tissue. Avoid using rough fabrics, water, or cleaning agents containing abrasive particles, as they may damage the coating.