Showing all 6 results

  • BaF2 Crystals 

    Simple description:

    Barium fluoride crystal, with the chemical formula of BaF₂, is an inorganic compound. It belongs to the cubic crystal system and is a good scintillation crystal. In the field of materials science and technology, barium fluoride crystal is a type of crystal material within inorganic non-metallic materials, exhibiting unique optical properties. Additionally, barium fluoride can serve as the basis for laser crystals, used in the manufacture of infrared lasers, ultrafast lasers, and other devices.

    Advantages:High Optical Transparency, Low Refractive Index, Excellent Scintillation Properties, Good Chemical Stability, Excellent Mechanical Properties

    Application fields:Optical Components, Laser Materials, Scintillation Crystals, Semiconductor Materials,  Manufacture of motor brushes, Optical glass, Optical fibers, Flux agents, Coating agents, Enamel, etc.

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  • CaF2 Crystals 

    Simple description:

    Calcium Fluoride crystal (chemical formula CaF2) is a colorless cubic crystal or white powder that is insoluble in water and transparent in its single-crystal form. It belongs to the cubic crystal system and has a transmission band of 0.13~10µm, making it an excellent ultraviolet and infrared window material. Calcium Fluoride is the main component of fluorite or fluorspar and is also the main source of fluorine.

    Advantages:Excellent Light Transmission, Low Stress Birefringence, Uniform and High Refractive Index, Stable Mechanical Properties, Non-hygroscopic, Strong Resistance to Radiation Damage

    Application fields:Medical Field, Chemical Industry, Construction Industry, Agricultural Field, Optical Field, Electronics Field

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  • Germanium (Ge) Crystals

    Exceptional Optical Properties:

    Germanium crystals exhibit high transmittance and a high refractive index, making them suitable for optical components in Peer-to-Point communication systems.

    The uniform transmittance ensures consistent performance and signal integrity.

    Superior Semiconductor Characteristics:

    Germanium is a semiconductor material with excellent electrical properties, allowing for efficient signal transmission and processing.

    Its high radiation resistance ensures stable performance even in harsh environments.

    Mechanical Strength and Durability:

    Germanium substrates are mechanically strong, providing robustness and longevity in Peer-to-Point communication devices.

    The ability to thin the substrates enables the creation of lighter and more compact devices.

    Cost-Effective Solution:

    Compared to other semiconductor materials like Gallium Arsenide (GaAs), Germanium is less expensive, offering cost savings in manufacturing Peer-to-Point communication systems.

    Versatile Application Range:

    Germanium crystals and substrates can be used in various components of Peer-to-Point communication systems, including infrared optics, solar cell substrates, and semiconductor devices.

    Applications: Semiconductors, Infrared optics, Solar cell field, etc.

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  • Kingwin Optics MgF2 CrystalsKingwin Optics MgF2 Crystals

    MgF2 Crystals

    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.

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  • ZnS Crystals 

    Simple description:

    Zinc sulfide crystal is an important inorganic compound with unique physical and chemical properties. It typically exists in yellow or yellow-brown forms, with a hexagonal or cubic crystal structure. Zinc sulfide crystals are characterized by high hardness, high melting point, and high density, which make them excel in various industrial and scientific applications.

    Advantages:High Stability, Excellent Light Transmission, Superior Thermal Conductivity, Excellent Electrical Properties, Strong Ablation Resistance, Good Processing Performance, Wide Range of Applications

    Application fields:Optical Applications, Display and Lighting, Solar Cells, Semiconductor Material, Pigments and Fillers, Metallurgical Industry, Radiation Protection Materials, Rubber and Plastic Reinforcement

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  • ZnSe Crystals 

    Simple description:

    Zinc selenide (ZnSe) is an important inorganic compound composed of selenium and zinc elements. Its molecular formula is ZnSe, with a molecular weight of approximately 144.33 (or 144.369, depending on the source). ZnSe has a high melting point, usually exceeding 1000℃ (some sources indicate a melting point of 1500℃, while others suggest 1100℃, which may be related to preparation methods and purity). ZnSe crystals exhibit a light yellow hexagonal shape with a density of 5.42g/cm³.

    Advantages:High Light Transmittance, High Thermal Stability, Excellent Mechanical Properties, Wide Bandgap Characteristics, Tunable Optical and Electrical Properties, Ease of Processing, Chemical Inertia

    Application fields:Infrared Optical Materials, Photoelectric Modulators, Semiconductor Lasers, Imaging Devices

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