Hard x-ray micro-focus multi-thickness ratio compound multilayer laue lens

A composite multi-layer film, thickness ratio technology, applied in layered products, application of diffraction/refraction/reflection for processing, etc., can solve problems such as large attenuation of incident light flux, limited light flux, and difficulty in making the lens diameter larger.

Inactive Publication Date: 2016-04-20
TONGJI UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] Since the Laue lens is a one-dimensional zone plate structure based on multilayer film technology, the stress problem generated during the deposition of thousands of layers of film makes it difficult to enlarge the lens aperture
In order to realize the two-dimensional focusing function, two lenses need to be spliced ​​vertically, and the flux attenuation is greater after the incident light is diffracted twice; this limits the luminous flux that can be obtained when using a multilayer Laue lens for focusing imaging experiments. Affects quality and acquisition time of hard X-ray microscopy

Method used

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  • Hard x-ray micro-focus multi-thickness ratio compound multilayer laue lens

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Embodiment

[0032] Such as figure 1 As shown, the multilayer Laue lens can be regarded as composed of a series of periodic partial gratings 1, and the materials of the spacer layer and the absorption layer of the partial gratings are Si layer 2 and WSi 2 For layer 3, the thickness ratio is the ratio of the thickness of Si layer 2 to the period of the grating. The thickness ratio of all local gratings in the ordinary Laue lens structure is 0.5, and the stress of the film system is relatively large, so it is difficult to increase the total thickness of 7. Therefore, a new type of WSi 2 / Si multi-thickness ratio composite multilayer Laue lens design. The resolution of the Laue lens is determined by the outermost film layer. At the same time, because the Laue lens is used in the hard X-ray band, the depth 4 is very large, so the local grating in the outer area 5 belongs to the dynamic diffraction area. The larger the thickness ratio, the better the diffraction efficiency. The higher the va...

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Abstract

The invention relates to a hard X-ray micro-focus multi-thickness-ratio composite multi-layer film Laue lens. Different film thickness ratios gamma, citing WSi2 / Si material combination as an example, gamma=dsi / (dWSi+dsi), are selected aiming at local gratings of different areas from the center to the outer layer in a lens structure; a small gamma is selected for a grating which is large in period and is located in the center area and stress is reduced; a large gamma is selected for a grating which is small in period and is located on the outer layer area and diffraction efficiency is ensured. Compared with a traditional multi-layer film Laue lens, the hard X-ray micro-focus multi-thickness-ratio composite multi-layer film Laue lens puts forward the design of a multi-thickness-ratio composite structure, on the premise that diffraction efficiency is ensured, and reduces stress of film series in a plating and forming process of thousands of layers of films, therefore a thicker multi-layer film structure can be manufactured, and the aperture and the luminous flux of the Laue lens are effectively increased.

Description

technical field [0001] The invention relates to the research of a high-resolution X-ray micro-focusing element, which belongs to the field of precision optical element research, in particular to a hard X-ray micro-focusing multi-thickness ratio compound multi-layer film Laue lens. Background technique [0002] According to the Rayleigh criterion, the shorter the wavelength of the light source, the higher the resolution of the optical system. X-ray wavelengths are much smaller than visible light, enabling nanoscale resolution. Compared with soft X-rays, hard X-rays have higher energy and greater penetration depth. Hard X-ray microscopy can realize the identification of high atomic number elements and non-destructive depth detection of thicker samples. The development of scanning X-ray fluorescence microscopy and 3D tomography has made hard X-ray microscopy gain important applications in the fields of life, materials, and environmental science. The resolution of an X-ray mic...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G21K1/06B32B9/04
Inventor 朱京涛黄秋实李浩川王占山
Owner TONGJI UNIV
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