Infrared radiation passes through a quartz glass disc
Infrared transmission through quartz glass disc is a quartz glass product specifically designed for transmitting infrared radiation.
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Infrared radiation passes through a quartz glass disc
Infrared transmission through quartz glass disc is a quartz glass product specifically designed for transmitting infrared radiation. Quartz glass, also known as silica glass, is a transparent and colorless glass primarily composed of silica. This type of glass has good transmittance in certain bands of the infrared spectrum, especially in the mid infrared and far-infrared ranges. However, at specific wavelengths (less than 2.7 microns), the performance of infrared radiation passing through quartz glass will decrease because infrared radiation at these wavelengths will be absorbed by quartz glass.
Infrared radiation can be divided into near-infrared (NIR, 0.75 to 1.4 micrometers), mid infrared (MIR, 1.4 to 3 micrometers), and far-infrared (FIR, 3 to 1000 micrometers) based on wavelength range. Different types of glass have differences in infrared transmittance, among which quartz glass performs well in the mid infrared and far-infrared ranges. In addition, factors affecting the transmission of infrared radiation through glass include the chemical composition and structure of the glass, thickness, wavelength of infrared radiation, surface treatment of the glass (such as coatings, coatings, etc.), and angle of incidence of light.
Infrared transmission through quartz glass is widely used in various applications that require infrared transmission, such as infrared optical instruments, infrared detection, tracking, and navigation instruments. These application areas have very high requirements for infrared transmission through quartz glass, as they directly affect the performance and application effectiveness of the instrument.
Infrared radiation passes through a quartz glass disc
Infrared transmission through quartz glass disc is a quartz glass product specifically designed for transmitting infrared radiation. Quartz glass, also known as silica glass, is a transparent and colorless glass primarily composed of silica. This type of glass has good transmittance in certain bands of the infrared spectrum, especially in the mid infrared and far-infrared ranges. However, at specific wavelengths (less than 2.7 microns), the performance of infrared radiation passing through quartz glass will decrease because infrared radiation at these wavelengths will be absorbed by quartz glass.
Infrared radiation can be divided into near-infrared (NIR, 0.75 to 1.4 micrometers), mid infrared (MIR, 1.4 to 3 micrometers), and far-infrared (FIR, 3 to 1000 micrometers) based on wavelength range. Different types of glass have differences in infrared transmittance, among which quartz glass performs well in the mid infrared and far-infrared ranges. In addition, factors affecting the transmission of infrared radiation through glass include the chemical composition and structure of the glass, thickness, wavelength of infrared radiation, surface treatment of the glass (such as coatings, coatings, etc.), and angle of incidence of light.
Infrared transmission through quartz glass is widely used in various applications that require infrared transmission, such as infrared optical instruments, infrared detection, tracking, and navigation instruments. These application areas have very high requirements for infrared transmission through quartz glass, as they directly affect the performance and application effectiveness of the instrument.