Showing 17–24 of 24 results

  • Kingwim Optics RTP CrystalsKingwim Optics RTP Crystals

    RTP Crystals

    Higher Damage Threshold: RTP crystals have a damage threshold about 1.8 times the magnitude of that of KTP crystals, making them suitable for high-power applications.

    High Resistivity: RTP crystals exhibit high resistivity, ensuring stable performance in various operating conditions.

    Low Absorption Loss: The low absorption loss of RTP crystals minimizes signal attenuation, resulting in higher efficiency.

    Non-hygroscopicity: RTP crystals are non-hygroscopic, meaning they do not absorb moisture, which can lead to degradation in performance.

    Absence of Induced Piezo-electric Ringing: RTP crystals do not exhibit induced piezo-electric ringing with frequencies of electrical input signals up to 60 kHz, ensuring clean and stable operation.

    Broad Transmission Range: The transmission range of RTP crystals is 350nm to 4500nm, spanning from the ultraviolet to the mid-infrared region.

    Miniature Walk-off Angle: When generating yellow lasers, RTP crystals have a miniature walk-off angle, which is beneficial for laser applications.

    Highly Efficient Media for High Repetition Rates: RTP crystals are highly efficient media for lasers with high repetition rates, making them ideal for pulsed laser applications.

    Applications: Nonlinear Optics, High-Power Laser Systems, Pulsed Laser Applications, Electro-Optical Applications, Scientific Research and Development, etc.

  • Kingwim Optics TGG CrystalsKingwim Optics TGG Crystals

    TGG Crystals

    Large Verdet Constant: Approximately 40 Rad T^-1 m^-1, indicating strong magneto-optical effects.

    Superb Thermal Properties: Thermal conductivity of 7.4 W/m/K, providing excellent thermal management.

    Low Optical Losses: Less than 0.1% per centimeter, ensuring minimal light attenuation.

    High Damage Threshold: Can withstand laser-induced damage thresholds greater than 1 GW/cm².

    Better Performance: Outperforms terbium-doped glasses in high average power fiber lasers due to greater Verdet constant and lower optical losses.

    Applications: Faraday Rotators, Magneto-Optical Modulators, Circulators, Current Measuring Transducers, etc.

  • Kingwim Optics Ti:Sapphire CrystalsKingwim Optics Ti:Sapphire Crystals

    Ti:Sapphire Crystals

    Exceptional Optical Properties:

    Broad Tunability: Ti:Sapphire lasers can be tuned over a wide spectral range, typically from 660 nm to 1.2 μm, making them versatile for a variety of experiments and applications.

    High Gain: The material exhibits high optical gain, enabling efficient laser operation at moderate pump powers.

    Ultrashort Pulse Generation: Ti:Sapphire is a favorite material for generating femtosecond pulses, crucial for time-resolved spectroscopy and nonlinear optics research.

    Outstanding Thermal Properties:

    High Thermal Conductivity: With excellent heat dissipation capabilities, Ti:Sapphire crystals can withstand high-power operation without significant thermal lensing effects.

    Stable Temperature Performance: Its stable temperature characteristics ensure consistent performance even under demanding conditions.

    Excellent Mechanical Durability:

    High Hardness: Ti:Sapphire boasts a Mohs hardness of 9, making it highly resistant to scratching and wear.

    Chemical Inertness: It is chemically stable, resisting corrosion from most acids and alkalis, ensuring long-term reliability.

    Biocompatibility:

    Ti:Sapphire is biocompatible, making it suitable for medical applications such as laser surgery and photodynamic therapy.

    Applications: Scientific Research, Industrial Applications, Medical Applications, etc.

  • Kingwim Optics TSAG CrystalsKingwim Optics TSAG Crystals

    TSAG Crystals

    Higher Performance: TSAG crystals exhibit stronger functionalities compared to TGG crystals.

    Verdet Constants: High Verdet constants indicate the material’s strong ability to induce Faraday rotation.

    Thermal Stability: Low thermal-induced birefringence ensures stable performance under varying thermal conditions.

    Mechanical Strength: TSAG crystals have excellent mechanical characteristics, making them suitable for high-power lasers.

    Wide Transmission Range: TSAG crystals have a broad transmission range from 400nm to 1600nm, covering both visible (VIS) and near-infrared (NIR) zones.

    Compact Designs: The material properties allow for the design of compact and efficient optical devices.

    Applications: Faraday Optical Isolators, Faraday Rotators and Circulators, Scintillators, etc.

  • Kingwin Optics V3+:YAG CrystalsKingwin Optics V3+:YAG Crystals

    V3+:YAG Crystals

    Novel Material for Q-switching: V3+:YAG crystals are specifically designed for saturable absorber passive Q-switching, enhancing laser performance.

    Excellent Ground State Absorption (GSA): With a cross-section of 7×10-18 cm2 near 1.3 μm, V3+:YAG crystals ensure efficient absorption.

    Negligible Excited State Absorption (ESA): Enables Q-switching of 1.3 μm and 1.44 μm Nd-lasers without intracavity focusing, compatible with both flash-lamp and diode-laser pumping.

    Good Chemical Stability and Thermal Conductivity: V3+:YAG crystals exhibit robust chemical stability and effective heat dissipation.

    UV Resistance and High Damage Threshold: The material is resistant to UV radiation and can withstand high energy levels, ensuring durability.

    Application Areas: Laser Technology, Nd-Laser Optimization, Medical and Industrial Applications, Scientific Research, Telecommunications, etc.

  • Kingwim Optics YCOB CrystalsKingwim Optics YCOB Crystals

    YCOB Crystals

    Outstanding Nonlinear Optical Properties: YCOB exhibits a nonlinear optical coefficient equivalent to that of BBO and LBO crystals, making it highly effective for nonlinear optical applications.

    Large Aperture and High Damage Threshold: With a sizable aperture and a high damage threshold in the femtosecond regime (approximately 2000-2500 GW/cm2), YCOB is capable of handling high-power laser applications.

    Wide Acceptance Angle and Small Dispersion Angle: YCOB’s wide acceptance angle and small dispersion angle make it ideal for precise and efficient laser beam manipulation.

    Stable Thermal and Chemical Properties: YCOB boasts stable thermal and chemical properties, with significantly less thermal expansion than LBO, and non-deliquescent characteristics, ensuring long-term reliability in various environments.

    Excellent Machining Properties: YCOB crystals are easy to machine, allowing for precise shaping and sizing to meet specific application requirements.

    Applications: High-Power Lasers, Parametric Nonlinear Processing, Optical Frequency Multiplication, etc.

  • Kingwin Optics YVO4 CrystalsKingwin Optics YVO4 Crystals

    YVO4 Crystals

    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.

  • Kingwim Optics ZGP (ZnGeP2) CrystalsKingwim Optics ZGP (ZnGeP2) Crystals

    ZGP (ZnGeP2) Crystals

    Large Nonlinear Susceptibility: ZnGeP2 crystals have a large nonlinear susceptibility (d36 ~ 75 pm/V), which is approximately 160 times that of KDP (potassium dihydrogen phosphate). This high nonlinear susceptibility makes ZGP crystals highly efficient for nonlinear optical processes.

    Wide Transparency Range: ZGP crystals are optically transparent over the 0.74–12 μm wavelength region. This wide transparency range allows for versatile use in various optical systems and applications.

    High Laser Damage Threshold: ZnGeP2 crystals have a relatively high laser damage threshold, making them suitable for high-power laser systems and applications that require intense laser beams.

    Tunable Laser Output: ZGP crystals are recommendable for producing tunable laser output in the near-infrared spectrum. This capability makes them valuable for applications that require precise control over laser wavelength.

    Applications: Laser Technology, Optical Parametric Oscillator (OPO), Optical Parameter Generation/Amplification (OPG/OPA), Frequency Conversion, Scientific research, Medical & Biological Imaging, etc.