Laboratory for Micro- and Nanotechnology, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland.
Nanotechnology. 2011 Sep 16;22(37):375302. doi: 10.1088/0957-4484/22/37/375302. Epub 2011 Aug 19.
Extreme ultraviolet (EUV) lithography is currently considered as the leading technology for high-volume manufacturing below sub-20 nm feature sizes. In parallel, EUV interference lithography based on interference transmission gratings has emerged as a powerful tool for industrial and academic research. In this paper, we demonstrate nanopatterning with sub-10 nm resolution using this technique. Highly efficient and optimized molybdenum gratings result in resolved line/space patterns down to 8 nm half-pitch and show modulation down to 6 nm half-pitch. These results show the performance of optical nanopatterning in the sub-10 nm range and currently mark the record for photon-based lithography. Moreover, an efficient phase mask completely suppressing the zeroth-order diffraction and providing 50 nm line/space patterns over large areas is evaluated. Such efficient phase masks pave the way towards table-top EUV interference lithography systems.
极紫外(EUV)光刻目前被认为是用于制造小于 20nm 特征尺寸的高产量的领先技术。与此同时,基于干涉传输光栅的 EUV 干涉光刻已经成为工业和学术研究的有力工具。在本文中,我们展示了使用该技术实现的具有小于 10nm 分辨率的纳米图案化。高效优化的钼光栅可实现分辨率低至 8nm 半间距的线/空间图案,并显示出低至 6nm 半间距的调制。这些结果展示了亚 10nm 范围内的光学纳米光刻性能,目前创下了基于光子的光刻记录。此外,还评估了一种高效的相移掩模,该掩模完全抑制了零级衍射,并在大面积上提供了 50nm 的线/空间图案。这种高效的相移掩模为台式 EUV 干涉光刻系统铺平了道路。
