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Low GDD: The advanced low GDD coating techniques minimize phase distortion, ensuring excellent performance for high-power femtosecond laser applications.
High Reflectance: Dielectric coatings provide a higher reflection coefficient and higher damage threshold compared to ultrafast-enhanced silver mirrors.
Superior Optical Properties: The UV Fused Silica substrates offer excellent optical properties, mechanical strength, and low thermal expansion.
Versatile Wavelength Range: Stocked mirrors are available in various wavebands or wavelengths, including 400nm, 532nm, 800nm, 808nm, 760-840nm, 1030nm, 1000-1060nm, and 1064nm, at incident angles of 0 degrees and 45 degrees.
Customizable: Custom GDD mirrors with other reflection wavebands are available upon request, providing versatility for various applications.
Applications: Femtosecond Laser Systems, Optical Instrumentation, Research and Development, Industrial Applications, etc.
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Cost-Effective: N-BK7 is one of the most common materials for optical components, featuring low bubble/inclusion content and decent mechanical/chemical endurance. Compared with UV-fused silica mirrors, N-BK7 mirrors are less expensive.
Wide Reflective Spectral Range: Metallic-coated mirrors feature a wide reflective spectral range, making them suitable for applications requiring a broad rejection range.
Non-Sensitive to Incidence Angle and Polarization State: Metallic coatings are not sensitive to the incidence angle and polarization state, providing consistent performance across various applications.
Versatile Coatings: Three metal materials are utilized to coat the mirror substrates: Aluminum (Al), Silver (Ag), and Gold (Au), each with its unique reflectance characteristics and applications.
Applications: Laser Systems, Optical Instrumentation, Research and Development, Industrial Applications, etc.
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Enhanced Reflectance: The silver coating enhanced with a dielectric coating provides increased reflectance between 600-1000nm, making it ideal for Ti: Sapphire lasers.
Low GDD: The mirrors offer low GDD, minimizing phase distortion and ensuring that ultrashort optical pulses sustain their peak power.
Superior Optical Properties: The UV Fused Silica substrates provide excellent optical properties, mechanical strength, and low thermal expansion.
Cost-Effective: Ultrafast-Enhanced Silver Mirrors are a cost-effective alternative to conventional metallic or dielectric mirrors, offering similar performance without the effects of widening.
Versatile: Kingwin Optics offers stocked and custom ultrafast-enhanced silver mirrors with low GDD, high flatness, and precision, providing versatility for various applications.
Applications: Ti: Sapphire Lasers, Optical Instrumentation, Research and Development, Industrial Applications, etc.
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High Reflectivity: Maintains an average reflectance above 98% at an angle of incidence of 0-45°, ensuring efficient light reflection.
Broadband Capability: Offers high reflectivity in four broadband wavelength regions, making it suitable for various optical systems.
Superior Substrate Material: Made of UV fused silica from Corning, known for its excellent optical properties, high scratch resistance, and low thermal expansion.
Advanced Dielectric Coating: Features a broadband dielectric coating with higher reflectivity compared to metallic coatings, making it ideal for ultra-high reflectivity applications.
Durability and Scratch Resistance: Dielectric coating provides enhanced durability and scratch resistance compared to metal mirrors.
Applications: Optical Systems, Research and Development, Research and Development, Industrial Applications, etc.
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Optimized Reflectivity: Provides high reflectivity in a narrow spectral range around the target wavelength, ensuring efficient laser light reflection.
Durable Substrate: Made of UV fused silica from Corning, known for its superior optical properties, high scratch resistance, and low thermal expansion.
Wide Range of Options: Available in a variety of specifications and options, including laser line mirrors for HeCd lasers, Ar+ lasers, Nd:YAG lasers, HeNe lasers, LD lasers, Yb:KGW/KYW lasers, and more.
High Reflectivity: Average reflectivity above 98% at an angle of incidence from 0-45°, regardless of the polarization state, with enhanced reflectivity up to 99% at 0° incidence.
Standard and Custom Versions: Offers both standard and custom versions of UVFS laser line mirrors to meet specific application requirements.
Low Group Delay Dispersion (GDD): Available in low GDD versions for ultrafast laser applications.
Applications: Laser Systems, Research and Development, Precision Instrumentation, Industrial Applications, etc.
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Superior Optical Properties: The UV-fused silica used for manufacturing our mirror substrates is sourced from Corning, known for its superior optical properties, great mechanical strength, and low thermal expansion.
Wide Reflective Spectral Range: Metallic-coated mirrors feature a wide reflective spectral range, making them suitable for applications requiring a broad rejection range.
Cost-Effective: Metal mirrors are less expensive compared to dielectric-coated mirrors, providing an economical option for various applications.
Non-Sensitive to Incidence Angle and Polarization State: Metallic coatings are not sensitive to the incidence angle and polarization state, providing consistent performance across various applications.
Versatile Coatings: Three metal materials are utilized to coat the mirror substrates: Aluminum (Al), Silver (Ag), and Gold (Au), each with its unique reflectance characteristics and applications.
Applications: Laser Systems, Optical Instrumentation, Research and Development, Industrial Applications, etc.
