Daniel Fan , Carlas S. Smith , Ranjith R. Unnithan , Sejeong Kim
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引用次数: 0
摘要
本文介绍了一种快速、稳健的方法,用于制造可见光波段的透射衍射光学元件。通过使用双光子光刻技术对聚合物光敏树脂进行增材制造,然后将结构包裹在折射率相似的另一种树脂中,可以使结构的高度大大增加,从而以两种材料的折射率差异来权衡制造高度。在对树脂收缩进行调整后,我们展示了不同的衍射光学元件设计,包括 m = 1 涡流板,以及方位角和径向折射率分别为 (1,1)、(1,2) 和 (2,1) 的拉盖尔-高斯光束。实验结果表明,强度模式(包括尺寸和特征)与模拟结果一致,但也观察到一些畸变,这可能是由于制造公差误差或光束偏差造成的。这项技术为使用增材制造和三维打印技术的微型光学制造方法增添了新的工具包,有利于快速原型制造和与微型化系统集成。
3D printed diffractive optical elements for rapid prototyping
A rapid and robust method to fabricate transmission diffractive optical elements in the visible wavelengths is presented. By additive manufacturing of a polymeric photo-resin using 2-photon lithography followed by encasing of the structure in another resin with similar refractive index, the height of the structure can be made much larger, thus trading-off fabrication height for refractive index difference of the two materials. After adjusting for resin shrinkage, different diffractive optical element designs including an m = 1 vortex plate, and Laguerre-Gaussian beams with azimuthal and radial indices of (1,1), (1,2), and (2,1) were demonstrated. Experimental results show intensity patterns matching that of simulations, including size and features, although some aberration was observed, possibly due to fabrication tolerance errors or beam misalignment. This technique adds to the toolkit of micro-optics fabrication methods using additive manufacturing and 3D printing, and it would be beneficial for rapid prototyping and integration with miniaturised systems.
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