Abstract
The residual stress field of fused silica induced by continuous wave CO2 laser irradiation is investigated with specific photoelastic methods. Both hoop stress and axial stress in the irradiated zone are measured quantitatively. For the hoop stress along the radial direction, the maximum phase retardance of 30 nm appears at the boundary of the laser distorted zone (680-μm distance to center), and the phase retardance decreases rapidly and linearly inward, and decreases slowly and exponentially outward. For the axial stress, tensile stress lies in a thin surface layer (<280 μm) and compressive stress lies just below the tensile region. Both tensile and compressive stresses increase first and then decrease along the depth direction. The maximum phase retardance induced by axial tensile stress is 150 nm, and the maximum phase retardance caused by axial compression stress is about 75 nm. In addition, the relationship between the maximum axial stress and the deformation height of the laser irradiated zone is also discussed.
Highlights
Due to its excellent transmission performance in the ultraviolet (UV) band, fused silica is used as one of the most important optical materials in many high-fluence and high-peak power laser facilities
The results show that both tensile and compressive stresses were generated after CO2 laser irradiation
The results show that tensile stress lies in a thin surface layer and the compressive stress lies just below the tensile region
Summary
Due to its excellent transmission performance in the ultraviolet (UV) band, fused silica is used as one of the most important optical materials in many high-fluence and high-peak power laser facilities. The CO2 laser processing method is inexpensive and straightforward to apply for mitigating sites on large optics.[8] it is known that residual stress may be generated around the mitigated sites after CO2 laser irradiation, which could cause critical fractures either during or after laser treatment.[9] it is necessary to have a good understanding of the residual stress behaviors of fused silica induced by the CO2 laser process. The mechanism of residual stress formation during and after laser mitigation is discussed
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