High Precision Optical Quartz Glass Light Guide Rod Manufacturer
High precision optical quartz glass light guide rod is a high quality product. It is made of high purity quartz glass with high precision to ensure accurate light transmission.
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 Precision Optical Quartz Glass Light Guide Rod Manufacturer
High precision optical quartz glass light guide rod is a high quality product. It is made of high purity quartz glass with high precision to ensure accurate light transmission. It has excellent optical performance, good light transmission in a wide spectral range, and can effectively guide light. It has good chemical stability, strong corrosion resistance and high thermal stability. High precision optical quartz glass light guide rods are widely used in optical instruments, medical equipment and other fields, can be customized, reliable quality and perfect after-sales service.
Customized length
We can customize the length of high precision optical quartz glass light guide rods according to the specific application requirements of customers. Whether it is a few centimeters long light guide rod for a small microscope or a few meters long light guide rod that may be needed for a large optical telescope, we are able to produce them with precision. For example, in some portable optical inspection equipment, light guides of 5 - 10 centimeters in length may be needed for compact design and short distance light transmission, while in large astronomical observation equipment, light guides of 2 - 3 meters in length may be needed to accommodate the complex optical paths of the telescope.
Diameter Customization
Diameter customization is also widely available. For applications requiring high power density optical transmission, such as high-energy lasers, larger diameters (e.g., 10 - 20 mm) may be required to avoid damage caused by over-concentration of light energy; whereas in precision optical instruments with strict spatial requirements, such as small spectroscopes, diameters of 1 - 3 mm may be required for compact optical path integration. We are able to control the diameter accuracy within ±0.1 mm, ensuring that the guides can be precisely adapted to various optical devices.
Customized Cross-Section Shapes
In addition to the common circular cross-section, we can also customize light guides with special cross-section shapes. For example, oval-shaped light guides can be customized to meet the asymmetric distribution of light in some optical imaging systems. For optical devices that require splitting or combining of light rays, light guides with square or polygonal cross sections can also be customized. These special shapes allow for better control of the direction and distribution pattern of the light.
Customized End Shapes
The end shapes of light guides can also be customized according to the connection and usage requirements of the customer. For efficient coupling to optical fibers, we can grind the ends to specific angles, such as 8°, 10°, etc., to reduce light reflection losses. For cases where optical components (e.g. lenses) need to be mounted, the ends can be designed as flat surfaces or with steps to facilitate precise mounting and positioning of the optical components.
High Precision Optical Quartz Glass Light Guide Rod Manufacturer
High precision optical quartz glass light guide rod is a high quality product. It is made of high purity quartz glass with high precision to ensure accurate light transmission. It has excellent optical performance, good light transmission in a wide spectral range, and can effectively guide light. It has good chemical stability, strong corrosion resistance and high thermal stability. High precision optical quartz glass light guide rods are widely used in optical instruments, medical equipment and other fields, can be customized, reliable quality and perfect after-sales service.
Customized length
We can customize the length of high precision optical quartz glass light guide rods according to the specific application requirements of customers. Whether it is a few centimeters long light guide rod for a small microscope or a few meters long light guide rod that may be needed for a large optical telescope, we are able to produce them with precision. For example, in some portable optical inspection equipment, light guides of 5 - 10 centimeters in length may be needed for compact design and short distance light transmission, while in large astronomical observation equipment, light guides of 2 - 3 meters in length may be needed to accommodate the complex optical paths of the telescope.
Diameter Customization
Diameter customization is also widely available. For applications requiring high power density optical transmission, such as high-energy lasers, larger diameters (e.g., 10 - 20 mm) may be required to avoid damage caused by over-concentration of light energy; whereas in precision optical instruments with strict spatial requirements, such as small spectroscopes, diameters of 1 - 3 mm may be required for compact optical path integration. We are able to control the diameter accuracy within ±0.1 mm, ensuring that the guides can be precisely adapted to various optical devices.
Customized Cross-Section Shapes
In addition to the common circular cross-section, we can also customize light guides with special cross-section shapes. For example, oval-shaped light guides can be customized to meet the asymmetric distribution of light in some optical imaging systems. For optical devices that require splitting or combining of light rays, light guides with square or polygonal cross sections can also be customized. These special shapes allow for better control of the direction and distribution pattern of the light.
Customized End Shapes
The end shapes of light guides can also be customized according to the connection and usage requirements of the customer. For efficient coupling to optical fibers, we can grind the ends to specific angles, such as 8°, 10°, etc., to reduce light reflection losses. For cases where optical components (e.g. lenses) need to be mounted, the ends can be designed as flat surfaces or with steps to facilitate precise mounting and positioning of the optical components.