Institut für Röntgenphysik, Universität Göttingen, Friedrich-Hund-Platz 1, 37077 Göttingen, Germany.
J Synchrotron Radiat. 2012 Mar;19(Pt 2):227-36. doi: 10.1107/S0909049511051983. Epub 2012 Jan 6.
The propagation of hard X-ray synchrotron beams in waveguides with guiding layer diameters in the 9-35 nm thickness range has been studied. The planar waveguide structures consist of an optimized two-component cladding. The presented fabrication method is suitable for short and leak-proof waveguide slices with lengths (along the optical axis) in the sub-500 µm range, adapted for optimized transmission at photon energies of 11.5-18 keV. A detailed comparison between finite-difference simulations of waveguide optics and the experimental results is presented, concerning transmission, divergence of the waveguide exit beam, as well as the angular acceptance. In a second step, two crossed waveguides have been used to create a quasi-point source for propagation-based X-ray imaging at the new nano-focus endstation of the P10 coherence beamline at Petra III. By inverting the measured Fraunhofer diffraction pattern by an iterative error-reduction algorithm, a two-dimensional focus of 10 nm × 10 nm is obtained. Finally, holographic imaging of a lithographic test structure based on this optical system is demonstrated.
研究了硬 X 射线同步加速器光束在波导中的传播,波导的导波层直径在 9-35nm 厚度范围内。平面波导结构由优化的双组分包层组成。所提出的制造方法适用于长度(沿光轴)在 500μm 以下的短而无泄漏的波导片,适用于在光子能量为 11.5-18keV 时进行优化传输。详细比较了波导光学的有限差分模拟和实验结果,涉及传输、波导出射光束的发散以及角接收。在第二步中,使用两个交叉波导在 Petra III 的 P10 相干光束线的新纳米焦点端站处创建了一个基于传播的 X 射线成像的准点源。通过迭代误差减少算法对测量的夫琅和费衍射图案进行反演,得到了 10nm×10nm 的二维焦点。最后,基于该光学系统演示了光刻测试结构的全息成像。
