Fabrication of continuous surface-relief gratings using a high-precision diamond-cutting process

Direct fabrication of continuous surface-relief gratings on acrylics using a high-precision diamond-cutting process is reported. Critical conditions s uch as the diamond-tip radius and cutting step were selected by taking acco unt of a designed grating profile and an expected roughness on the obtained grating surface: Experimental results for a 13-fanout continuous phase gra ting are presented. The phase profile was optimized using a stochastic desi gn algorithm. A 3-mm-thick acrylic plate was carved into a grating that pro vided a measured efficiency of 85% with Fresnel reflection losses uncorrect ed. The diffracted intensity distribution was rather sensitive to any depar ture from the designed profile, the 0th-order intensity being particularly affected. Compensating the material's springback was found critical to the grating's performance. (C) 2001 Society of Photo-Optical Instrumentation En gineers.