Surface gradient integrated profiler for X-ray and EUV optics |
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Authors: | Yasuo Higashi Katsuyoshi Endo Kazuhiro Enami Kazuya Yamamura Kenji Ueno |
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Affiliation: | a Applied Research Laboratory, High Energy Accelerator Research Organization, Oho 1-1, Tsukuba, Ibaragi 305-0801, Japan b Research Center for Ultra Precision Science and Technology, Graduate School of Engineering, Osaka University, Japan c Department of Precision Science and Technology, Graduate School of Engineering, Osaka University, Japan |
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Abstract: | A new ultraprecise profiler has been developed to measure, for example, asymmetric and aspheric profiles. The principle of our measuring method is that the normal vector at each point on the surface is determined by making the incident light beam on the mirror surface and the reflected beam at that point of coincident. The gradient at each point is calculated from the normal vector, and the surface profile is then obtained by integrating the gradients. The measuring instrument was designed in accordance with the above principle. In the design, four ultraprecise goniometers were applied to adjust the light axis for normal vector measurement. The angle-positioning resolution and accuracy of each goniometer are, respectively, 0.018 and 0.2 μrad. Thus, in the measuring instrument, the most important factor is the accuracy of the normal vectors measured by the goniometers. Therefore, the rotating angle-positioning errors were measured and calibrated. An elliptical profile mirror for nanometer hard-X-ray focusing was measured, and compared with the measured profile using a stitching interferometer. The absolute measurement accuracy of approximately 5 nm (peak-to-valley) was achieved. Then the measurements of 1000-mm-long flat, spherical and parabolic mirrors were demonstrated. The surface profiles of the mirrors were obtained by integrating the interpolated gradient. |
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Keywords: | Synchrotron radiation optics EUV Surface figuring Slope error Normal vector Goniometers Asymmetric aspheric figure |
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