用于微电子应用的多晶薄膜的全三维互反空间图

2015 IEEE International Interconnect Technology Conference and 2015 IEEE Materials for Advanced Metallization Conference (IITC/MAM) Pub Date : 2015-05-18 DOI:10.1109/IITC-MAM.2015.7325624

T. Thanh, N. Blanc, N. Boudet, E. Bourjot, S. Zhiou, V. Kovacova, P. Rodriguez, F. Nemouchi, P. Gergaud

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引用次数: 5

摘要

我们介绍了一种基于BM02光束线(ESRF)的全三维互反空间映射(RSM)测量技术，该技术是在微电子应用的超薄多晶薄膜框架下开发的。该技术提供了在大范围的布拉格角范围内的互反空间的完整概述，以检测和表征多晶薄膜中存在的所有相的性质和纹理。作为该技术的演示，我们对几种样品进行了3D RSM测量:在低于20 nm的FD-SOI晶体管框架中，用于源/漏触点的硅上的ni基锗硅化物;电力电子用镍基合金III-V材料以及用于MEMS应用的硅衬底PZT薄膜。新的软件(DEVA)是在纯Python语言开发的，以便快速自动和在线处理这些多维数据，考虑到我们的区域探测器XPAD的特定几何形状。

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Full 3D reciprocal space map of thin polycrystalline films for microelectronic applications

We introduce a full 3D reciprocal space map (RSM) measurement technique developed at the BM02 beamline (ESRF) in the framework of ultrathin polycrystalline films for microelectronic applications. This technique gives a complete overview of the reciprocal space in a large range of Bragg angles to detect and characterize the nature and texture of all phases present in a polycrystalline film. As a demonstration for this technique we have performed 3D RSM measurement on several kinds of samples: Ni-based germano-silicide on silicon for source/drain contacts in the framework of sub-20 nm FD-SOI transistors; Ni-based alloyed with III-V materials for power electronics application; and PZT thin films on silicon substrate for MEMS applications. New software (DEVA) is developed in pure Python language in order to quickly automatically and on line treat these multidimensional data, taking into account the specific geometry of our area detector XPAD.

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来源期刊

2015 IEEE International Interconnect Technology Conference and 2015 IEEE Materials for Advanced Metallization Conference (IITC/MAM)

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