Thermal Effects Caused by Inclusions in Optical Films Irradiated by CW Laser

Cai Hua Huang; Xiao Hua Sun; Yi Hua Sun; Jun Zou

doi:10.4028/www.scientific.net/AMR.634-638.2609

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Thermal Effects Caused by Inclusions in Optical Films Irradiated by CW Laser

Abstract:

A steady thermal conduction model was presented to study the temperature field and thermal stress distribution in film irradiated by continuous wave laser. The thermal effects may arise from either the absorbing inclusions or the intrinsic absorption of film. Based on the plane thermal conduction assumption, the characteristics of damage resulted from local melting or evaporation and thermal stress were discussed. The damage region resulted from local melting or evaporation smaller than that from thermal stress. The circumferential stress σ_θ is the main cause accounting for the stress damage. The normal stress perpendicular to the interface between film and substrate is the direct cause of drum type damage. The characteristics of damage in unsteady thermal conduction caused by pulse laser can be analyzed qualitatively by means of this model.