-
- Efficient Eye-Safe Laser Emission: Strong laser output around 2.1 µm, ideal for safe medical and military applications.
- Self-Q-Switching Capability: Enabling compact laser designs without external modulators.
- High Optical Homogeneity: Ensures stable laser performance with minimal beam distortion.
- High Thermal Conductivity: Supports high-power laser operation with effective heat management.
- Long Fluorescence Lifetime: Enhances energy storage for pulsed laser systems.
- Excellent Mechanical and Chemical Stability: Resistant to environmental degradation.
- Direct Diode Pumping Compatibility: Allows for highly efficient, compact laser systems.
-
- Exceptional Magnetic Properties: Holmium’s strong paramagnetic characteristics are essential in the production of advanced magnetic materials.
- Thermal and Optical Stability: It can form stable films that perform well under various thermal and optical conditions.
- High Purity: Holmium pellets are available in high-purity forms, ensuring consistent deposition quality for precision applications.
- Neutron Absorption: Holmium’s ability to absorb neutrons makes it a valuable material in nuclear technology.
-
- High Purity: ≥99.9% purity ensures consistent performance in sensitive applications.
- Exceptional Optical Properties: Ideal for use in lasers, optical coatings, and devices requiring precise light manipulation.
- Stability at High Temperatures: Maintains performance even at elevated temperatures.
- Chemical Inertness: Excellent resistance to corrosion and oxidation, making it durable in harsh environments.
- Versatile Particle Sizes: Available in both nano and micron sizes, suitable for various manufacturing processes.
