Freeform Optics Metrology

In ultra-precision diamond turning of freeform optics, it is necessary to obtain submicron-level form accuracy with high efficiency. In this study, we proposed a new method for the quick measurement and compensation of tool contour errors to improve the form accuracy of the workpiece. In this method, the nanometer-scale contour error of a diamond tool is quickly and precisely measured using a white light interferometer and then compensated for, before machining. Results showed that the contour of a diamond tool was measured with an error less than 0.05 μm peak-to-valley (P-V) and the feasibility of error compensation was verified through cutting experiments to create a paraboloid mirror and a microlens array. The form error decreased to 0.2 μm P-V regardless of the contour error of the diamond tools when cutting the paraboloid mirror, and that of the microlens array was reduced to 0.15 μm P-V during a single machining step.

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New Methods for Design and Computation of Freeform Optics

10.21236/ada621669 ◽

2015 ◽

Author(s):

Vladimir Oliker

Keyword(s):

New Methods ◽

Freeform Optics

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Pseudorandom orbiting stroke for freeform optics postprocessing

Optical Engineering ◽

10.1117/1.oe.58.9.092608 ◽

2019 ◽

Vol 58 (09) ◽

pp. 1 ◽

Cited By ~ 1

Author(s):

Xiangyu Guo ◽

Yong Shu ◽

Geon-Hee Kim ◽

Michael Palmer ◽

Heejoo Choi ◽

...

Keyword(s):

Freeform Optics

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Diamond Turning Freeform Optics

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.364-366.1 ◽

2007 ◽

Vol 364-366 ◽

pp. 1-6

Author(s):

W. Jiang ◽

Bill Tse ◽

Roy Louie ◽

Frankie Chan

Keyword(s):

Diamond Turning ◽

Freeform Surface ◽

Work Piece ◽

Freeform Optics ◽

Milling Method ◽

Slow Tool Servo ◽

Optics Industry ◽

Optics Fabrication ◽

Five Axis ◽

Machining Parameter

Freeform optics fabrication has become one of the hottest topics in optics industry in recent years. Although it still remains a challenge, many have tried different ways of manufacturing it. Some have achieved degrees of success. By means of a Nanotech 350-FG five axis diamond turning machine, we too have successfully produced some prototype freeform optics and lens arrays with Slow Tool Servo and Milling method. The produced freeform optics are mainly for automobile LED headlamps and the lens arrays are for LED illumination. In order to produce the freeform optics, we developed our own DT Slow Tool Servo program which is capable of generating a DT program for diamond turning a universal/general 3D freeform surface. Slow Tool Servo technique and Diamond Milling technique were mainly employed to produce these freeform surfaces. The manufacturing process and machining parameter details will be given in the paper. The two main methods we used will be compared and discussed as well. In measuring the freeform surface, a 3D white light interferometer was used to scan and obtain the surface coordinates. The software made by ourselves enabled us to compare the measure results of the work piece with that of the design drawings. The deviation of our finished forms is within 5 um from that of the nominal. The surface quality Rq is about 10 nm. Measuring equipment and methodology will also be discussed in the paper.

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