High transmittance quartz glass window
High transmittance quartz glass window is a material with unique optical properties, mainly composed of silicon dioxide.
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 quartz glass window
High transmittance quartz glass window is a material with unique optical properties, mainly composed of silicon dioxide. Its optical performance is excellent, it can transmit far ultraviolet light, making it the best among all ultraviolet transparent materials, and it can also transmit visible light and near-infrared spectra. Quartz glass has the characteristics of high temperature resistance, extremely low thermal expansion coefficient, good chemical stability, no bubbles, no stripes, uniformity, and birefringence, making it comparable to ordinary optical glass. It is an essential optical material with high stability optical coefficient in various harsh environments.
The optical properties of quartz glass can be divided into three categories: far ultraviolet JGS1, UV JGS2, and infrared JGS3. Far ultraviolet JGS1 is transparent in the ultraviolet and visible spectral ranges, with no absorption band in the wavelength range of 185-2500nm and a strong absorption band in the wavelength range of 2600-2800nm; UV JGS2 is transparent in the ultraviolet and visible spectral ranges, with no absorption band in the wavelength range of 200-2500nm and a strong absorption band in the wavelength range of 2600-2800nm; Infrared JGS3 is transparent in the visible and infrared spectral ranges, with no obvious absorption band in the wavelength range of 2600-2800nm. Compared with ordinary silicate glass, transparent quartz glass exhibits excellent transmittance throughout the entire wavelength range. The spectral transmittance in the infrared region is higher than that of ordinary glass; In the visible light region, the transmittance of quartz glass is also relatively high. In the ultraviolet spectral region, especially in the short wave ultraviolet region, the spectral transmittance is much better than other glasses.
Quartz glass is mainly used in laboratory equipment and extraction equipment for special high-purity products. Due to its high spectral transmission, it is not damaged by radiation (other glass will darken when exposed to radiation), making it an ideal glass for spacecraft, wind tunnel windows, and spectrophotometer optical systems.
High transmittance quartz glass window
High transmittance quartz glass window is a material with unique optical properties, mainly composed of silicon dioxide. Its optical performance is excellent, it can transmit far ultraviolet light, making it the best among all ultraviolet transparent materials, and it can also transmit visible light and near-infrared spectra. Quartz glass has the characteristics of high temperature resistance, extremely low thermal expansion coefficient, good chemical stability, no bubbles, no stripes, uniformity, and birefringence, making it comparable to ordinary optical glass. It is an essential optical material with high stability optical coefficient in various harsh environments.
The optical properties of quartz glass can be divided into three categories: far ultraviolet JGS1, UV JGS2, and infrared JGS3. Far ultraviolet JGS1 is transparent in the ultraviolet and visible spectral ranges, with no absorption band in the wavelength range of 185-2500nm and a strong absorption band in the wavelength range of 2600-2800nm; UV JGS2 is transparent in the ultraviolet and visible spectral ranges, with no absorption band in the wavelength range of 200-2500nm and a strong absorption band in the wavelength range of 2600-2800nm; Infrared JGS3 is transparent in the visible and infrared spectral ranges, with no obvious absorption band in the wavelength range of 2600-2800nm. Compared with ordinary silicate glass, transparent quartz glass exhibits excellent transmittance throughout the entire wavelength range. The spectral transmittance in the infrared region is higher than that of ordinary glass; In the visible light region, the transmittance of quartz glass is also relatively high. In the ultraviolet spectral region, especially in the short wave ultraviolet region, the spectral transmittance is much better than other glasses.
Quartz glass is mainly used in laboratory equipment and extraction equipment for special high-purity products. Due to its high spectral transmission, it is not damaged by radiation (other glass will darken when exposed to radiation), making it an ideal glass for spacecraft, wind tunnel windows, and spectrophotometer optical systems.