High Damage Threshold UV Mirror

The High Damage Threshold UV Plane Mirror is a high-performance reflective optic designed for high-power ultraviolet laser systems. Manufactured using Ion Beam Sputtering (IBS) technology, it features extremely uniform and dense coating layers that significantly enhance durability, resistance to environmental variations, and tolerance to high-energy laser exposure. Compared with traditional coating methods, IBS allows more precise layer control and optimization, further improving mirror performance.

Within the ultraviolet spectral range, the mirror provides high reflectivity, ensuring maximum laser energy transmission. It withstands high-energy laser pulses, with LIDT values far exceeding those of conventional UV mirrors. The IBS coatings deliver ultra-low absorption, minimizing energy loss and preventing thermal damage. This ensures excellent durability and long-term stability, even under extreme operating conditions.

High Damage Threshold Green Femtosecond Mirror

The High Damage Threshold Green Plane Mirror is a high-performance optical component designed for green lasers, typically operating in the 500-570nm range. It is engineered to handle the demands of high-power, high-repetition-rate laser applications.

Produced with Ion Beam Sputtering (IBS) technology, the coating is exceptionally dense and capable of withstanding high laser energies, ensuring durability under intense green laser irradiation. The coating prevents performance degradation or damage during long-term, high-power operation. With high reflectivity, the mirror maximizes energy retention while minimizing optical loss. Its low scattering and low absorption properties ensure extremely low optical losses—critical for high-precision and long-term stable laser applications. In addition, IBS coatings enhance resistance to scratches and environmental influences, enabling reliable performance in harsh conditions. The mirror withstands extreme temperature, humidity, and vibration, making it ideal for both laboratory research and demanding industrial environments.

High Damage Threshold 800nm Femtosecond Mirror

Ti:sapphire lasers, widely used in ultrafast science, microscopy, and laser processing, demand optics with high reflectivity, low absorption, and excellent laser-induced damage thresholds (LIDT).

Our 800nm femtosecond mirrors are designed for high-energy and high-repetition-rate systems. With Ion Beam Sputtering (IBS) coatings, they feature ultra-low absorption losses, minimizing thermal effects and enhancing stability. The dense, uniform coatings ensure durability and reliable performance even under prolonged exposure to powerful femtosecond pulses. These mirrors combine high reflectivity, outstanding LIDT, and excellent surface quality, reducing scattering and delivering clean, stable laser beams. They are the ideal choice for Ti:sapphire femtosecond laser systems where pulse integrity and system reliability are critical.

High Damage Threshold 890-2940nm Femtosecond Mirror

The 890–2940nm High Damage Threshold Femtosecond Mirror is designed for high-power ultrafast laser applications. Produced with Ion Beam Sputtering (IBS) technology, it ensures precise coating thickness and uniformity, providing excellent optical performance and resistance to laser damage.

Optimized for femtosecond sources in the 890-2940nm range, including mid-infrared (MIR) systems, the mirror offers high reflectivity, low absorption, and superior beam quality. It withstands intense femtosecond pulses without degradation, maintaining stable performance even during long-term, high-power operation. Key advantages include strong durability, long service life, and customizable design to ensure compatibility with different femtosecond laser systems. This mirror provides reliable and efficient performance for demanding ultrafast applications.

High Damage Threshold 1030nm Femtosecond Mirror

The High Damage Threshold 1030nm Femtosecond Mirror is a high-performance optical component specifically designed for Yb-doped (Yb) lasers, offering an exceptionally high laser-induced damage threshold (LIDT) and outstanding optical performance, making it ideal for high-power and ultrafast laser applications.

Using Ion Beam Sputtering (IBS) coating technology, the mirror achieves superior durability under short pulses and high-power laser exposure. The dense, pore-free coating withstands extreme conditions such as high temperature, humidity, and strong laser impact. With high reflectivity, it minimizes energy loss and enhances overall system efficiency. Precision substrates and polishing techniques ensure excellent wavefront quality and phase integrity of the laser beam. The high-density IBS coating also provides excellent environmental resistance, enabling long-term stability in high-humidity, high-temperature, or vacuum conditions. These mirrors are perfectly suited for ultrafast spectroscopy, time-resolved experiments, industrial laser processing, and Chirped Pulse Amplification (CPA) systems.