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Optical Properties of Fused Quartz

Optical transmission properties provide a means for distinguishing among various types of vitreous silica as the degree of transparency reflects material purity and the method of manufacture.

 

Specific indicators are the UV cutoff and the presence or absence of bands at 245 nm and 2.73 μm. The UV cutoff ranges from about 155 to 175 nm for a 10 mm thick specimen and for pure fused quartz is a reflection of material purity.

 

The presence of transition metallic impurities will shift the cutoff toward longer wavelengths. When desired, intentional doping, e.g., with Ti in the case of Momentive's 219 fused quartz, may be employed to increase absorption in the UV. The absorption band at 245 nm characterizes a reduced glass and typifies material made by electric fusion. If a vitreous silica is formed by a "wet" process, either flame fusion or synthetic material, for example, the fundamental vibrational band of incorporated structural hydroxyl ions will absorb strongly at 2.73 μm.

 

View the index of refraction and IR transmission of fused quartz
View the average transmittance curves of fused quartz

 

UV Cutoff

As the transmission curve illustrates, Momentive's 214 fused quartz has a UV cutoff (1 mm thickness) at < 160 nm, a small absorption at 245 nm and no appreciable absorption due to hydroxyl ions. 219, which contains approximately 100 ppm Ti, has a UV cutoff at about 230 nm for a 1 mm thick sample.

 

High IR Transmission

The IR edge falls between 4.5 and 5.0 μm for a 1 mm thick sample. Momentive's 214/124 electrically fused quartz is a very efficient material for the transmission of infrared radiation. Its infrared transmission extends out to about 4 μm with little absorption in the "water band" at 2.73 μm . This makes Momentive’s electrically fused quartz different than flame fused quartz (often referred to as "wet" quartz). This difference is seen in the transmission for the IR range.

 

Conversion to Other Thicknesses

T = (1-R)2e –at

Where
T = percent transmission expressed as a decimal.
R = surface reflection loss for one surface.
e = base of natural logarithms
a = absorption coefficient, cm-1
t = thickness, cm

 

For more information regarding the use guidelines for fused quartz, click here.