Study on optimization of exposure energy distribution for fabrication of arbitrary 3-D microstructure by shaped beam using synchrotron radiation

M. Horade, S. Sugiyama
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Abstract

Research on establishment of a fabrication method of three-dimensional microstructure which used SR (Synchrotron Radiation) light is reported. As the advantage of this method, since there is no necessity of fabrication masks and it is suitable for rapid prototyping, reduction of fabrication time and cost is mentioned. In this time, we carry out basic research about realization of this fabrication method, and it succeeded in fabrication of the free-form surface by exposure between pixels overlap. Moreover, in order to fabricate the three-dimensional structure of arbitrary shape, the algorithm which can determine exposure energy amount in consideration of overlap was written to target form. Using this algorithm, fabrication of various arbitrary three-dimensional structures was possible by only single aperture without manufacture a mask for every form. It is examining using this technique for fabrication of μ-TAS or a reactor. The channel which has the inclination and free-form surface are fabricated by this method, improvement in functionality is promising.
同步辐射成形光束制备任意三维微结构的辐照能量分布优化研究
报道了一种利用同步辐射(SR)光制作三维微结构的方法。该方法的优点是不需要制作掩模,适合快速成型,缩短了制作时间和成本。本文对该制作方法的实现进行了基础研究,并成功实现了像素重叠曝光法制作自由曲面。此外,为了制作任意形状的三维结构,将考虑重叠的暴露能量确定算法写入目标形状。使用该算法,可以仅通过单个孔径制造各种任意三维结构,而无需为每种形式制造掩模。目前正在研究利用该技术制备μ-TAS或反应器。利用该方法制备了具有倾斜和自由曲面的沟槽,在功能性上有很大的提高。
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