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  • Kingwim Optics Optical Grade LiNbO3 Crystal WafersKingwim Optics Optical Grade LiNbO3 Crystal Wafers

    Optical Grade LiNbO3 Crystal Wafers

    Excellent electro-optical effect: LiNbO3 has a large electro-optical coefficient, which makes it perform well in electro-optical modulators and can be used for high-speed optical signal processing and conversion.

    Good nonlinear optical performance: its high nonlinear optical coefficient is suitable for optical parametric oscillators (OPOs), frequency multipliers and harmonic generators and other equipment, and can generate tunable infrared wavelengths and second harmonics.

    Wide transparency range: Good transparency from ultraviolet to infrared wavelengths, especially in the range of 370~5000nm, which makes LiNbO3 crystals have a wide range of applicability in a variety of optical applications.

    High mechanical and chemical stability: Ability to withstand a wide range of processing and handling processes ensures long-term stability and reliability of the device.

    Customizability: The size, orientation and surface treatment of the crystal can be customized according to specific needs to meet the needs of different application scenarios.

    Applications: Optoelectronics, Optical Communications, Nonlinear Optics, etc.

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  • Kingwim Optics Optical Grade LiTaO3 Crystal WafersKingwim Optics Optical Grade LiTaO3 Crystal Wafers

    Optical Grade LiTaO3 Crystal Wafers

    Exceptional Optical Properties:

    LiTaO3 crystal wafers exhibit high optical transparency across a wide spectral range, making them ideal for various optical applications.

    They possess excellent refractive index homogeneity, ensuring precise light transmission and minimal dispersion.

    Superior Thermal Stability:

    LiTaO3 crystals demonstrate remarkable thermal stability, allowing for reliable operation in high-temperature environments.

    This characteristic makes them suitable for applications requiring stable optical performance under varying temperature conditions.

    Enhanced Piezoelectric Effect:

    LiTaO3 is known for its strong piezoelectric properties, enabling efficient energy conversion between mechanical and electrical domains.

    This effect is particularly useful in applications such as ultrasonic transducers and surface acoustic wave (SAW) devices.

    Excellent Chemical Resistance:

    The chemical stability of LiTaO3 crystal wafers ensures long-term durability and resistance to corrosion, making them suitable for harsh environments.

    This property allows for extended usage in applications where exposure to chemicals is prevalent.

    Versatile Processing Capabilities:

    LiTaO3 crystal wafers can be easily processed and shaped using various techniques, including cutting, polishing, and thin-film deposition.

    This versatility facilitates the creation of custom optical components tailored to specific application requirements.

    Applications: Optical Communications, Piezoelectric Devices, Optical Instrumentation, Harsh Environment Applications, etc.

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