High transmittance optical sensor quartz glass plate
High transmittance optical sensor quartz glass plate is a special type of quartz glass, which has superior optical properties such as high transmittance, low dispersion, and high refractive index.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
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High transmittance optical sensor quartz glass plate
High transmittance optical sensor quartz glass plate is a special type of quartz glass, which has superior optical properties such as high transmittance, low dispersion, and high refractive index. These characteristics make it stand out in the field of optics, especially with a transmittance of over 90% in the visible light range, approaching the theoretical limit, and high transmittance in the ultraviolet (UV) and infrared (IR) regions.
Quartz glass is a special industrial technical glass composed of a single component of silicon dioxide, which has a series of special physical and chemical properties. Pure quartz glass is composed of a single component of silicon dioxide (SiO2). The Si-O bonds in quartz glass are arranged in a short-range ordered and long-range disordered state. Due to the strong and stable bond energy of Si-O bonds, quartz glass has high softening temperature, excellent spectral transparency, extremely low thermal expansion coefficient and conductivity, extremely high chemical stability, radiation resistance, and long working life under extreme conditions.
Ultra high purity quartz is widely used in the production of optical lenses due to its excellent transmittance and consistent refractive index. It performs well in achromatic lenses, convex lenses, and various other applications. In addition, ultra-high purity quartz can also be used to manufacture collimators, focusing systems, and microscope objectives.
Fused silica and optical quartz glass wafers are high-quality wafers made of high-purity SiO2 materials through advanced melting and processing technologies. They have excellent optical properties and chemical stability, making them suitable for a variety of high-precision optical and electronic applications. These wafers have excellent optical transparency, low scattering, and low absorption properties, making them have broad application potential in fields such as optical communication, optical storage, and optical sensing.
Quartz glass plates for high transmittance optical sensors play an important role in various fields, including optical systems, sensing technology, laser transmission, etc., due to their excellent optical performance.
High transmittance optical sensor quartz glass plate
High transmittance optical sensor quartz glass plate is a special type of quartz glass, which has superior optical properties such as high transmittance, low dispersion, and high refractive index. These characteristics make it stand out in the field of optics, especially with a transmittance of over 90% in the visible light range, approaching the theoretical limit, and high transmittance in the ultraviolet (UV) and infrared (IR) regions.
Quartz glass is a special industrial technical glass composed of a single component of silicon dioxide, which has a series of special physical and chemical properties. Pure quartz glass is composed of a single component of silicon dioxide (SiO2). The Si-O bonds in quartz glass are arranged in a short-range ordered and long-range disordered state. Due to the strong and stable bond energy of Si-O bonds, quartz glass has high softening temperature, excellent spectral transparency, extremely low thermal expansion coefficient and conductivity, extremely high chemical stability, radiation resistance, and long working life under extreme conditions.
Ultra high purity quartz is widely used in the production of optical lenses due to its excellent transmittance and consistent refractive index. It performs well in achromatic lenses, convex lenses, and various other applications. In addition, ultra-high purity quartz can also be used to manufacture collimators, focusing systems, and microscope objectives.
Fused silica and optical quartz glass wafers are high-quality wafers made of high-purity SiO2 materials through advanced melting and processing technologies. They have excellent optical properties and chemical stability, making them suitable for a variety of high-precision optical and electronic applications. These wafers have excellent optical transparency, low scattering, and low absorption properties, making them have broad application potential in fields such as optical communication, optical storage, and optical sensing.
Quartz glass plates for high transmittance optical sensors play an important role in various fields, including optical systems, sensing technology, laser transmission, etc., due to their excellent optical performance.