Showing all 7 results
Wide Spectral Region: Large birefringence from 189 nm to 3500 nm.
Exceptional Transmittance: Particularly in the UV region.
Superior Physical Properties: High optical transparency, surpassing optical homogeneity, low hygroscopicity, and high damage threshold.
Applications: Polarizers, Polarizing Beam Displacers, Phase Retarders, Birefringent Plates, Time Delay Compensators, High-Power and UV Applications, etc.
Main Advantages: High Thermal Conductivity, Broadband Near-Infrared Emission, Chemical and Thermal Stability
Applications: Solid-State Lasers, Medical Lasers, Optical Parametric Oscillators (OPOs), Optical Amplifiers, Frequency Conversion, Laser Diagnostics
Wide Transmission Spectrum: 350 nm to 5200 nm.
Birefringence: Due to its non-centrosymmetric crystal structure, allowing the splitting of incident light into two orthogonal polarization states.
Excellent Optical Properties: Low optical absorption and high damage threshold.
Piezoelectric and Electro-optic Properties: Ideal for various technological applications.
Low Production Cost: Economically feasible for large-scale manufacturing.
Applications: Polarizing Optics, Fiber Communication, Nonlinear Optics, Electro-optic Devices, etc.
Wide Transmission Spectrum: 110 nm to 7500 nm.
Outstanding VUV Transmittance: Over 80% at 170 nm.
High Resistance: Excellent resistance to thermal and mechanical shocks, and optical radiation.
Chemical Stability: Immune to corrosion and deliquescence.
Large Birefringence: Suitable for waveplate fabrication.
Applications: Excimer Lasers, Thermal Imaging, Fiber Communication, Thin Film Growth, etc.
Birefringence: High birefringence, which allows for the separation of light into two orthogonal polarization states.
Transmission Range: Wide spectral range from 200 nm to 2500 nm.
Applications: Polarizing Prisms, Beam-Divergent Elements, Laser Gates, Group Velocity Delay Compensators, etc.
Broad Transparency Range: 0.2 μm to 3.5 μm.
High Internal Crystalline Perfection: Ensures superior optical quality.
Excellent Optical Homogeneity: Provides uniform optical properties.
Exceptional Mechanical Properties: Durable and resistant to deformation.
Low Thermal Expansion: Minimizes thermal-induced changes.
High Machinability: Facilitates precision engineering of optical components.
Chemical Resistance: Durable against corrosion and deliquescence.
Superior Refractive Characteristics: Ideal for waveplates and polarizing optics.
Applications: Waveplates, Polarizing Optics, Optical Components, Precision Instruments, etc.
Transparency Range: 400 nm to 5000 nm.
Birefringence: Significant birefringence, useful for polarization applications.
Mechanical Robustness: Superior mechanical strength and durability.
Chemical Stability: High resistance to chemical reactions and degradation.
Thermal Stability: Excellent performance across a wide temperature range.
Applications: Fiber Optic Isolators and Circulators, Beam Displacers, Glan Polarizers, Other Polarizing Optics, etc.