A. K. Kambham, G. Zschaetzsch, Y. Sasaki, M. Togo, N. Horiguchi, J. Mody, A. Florakis, D. Gajula, A. Kumar, M. Gilbert, W. Vandervorst
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引用次数: 6
摘要
由于纳米级器件的性能取决于掺杂分布的详细工程设计,因此需要先进的掺杂工艺。随着finfet等3d结构的发展,研究掺杂栅极重叠和掺杂的一致性需要具有3d分辨率的计量,并且能够将分析体积限制在一个小的3d结构中。我们证明,通过适当的方法,这是可行的使用原子探针断层扫描(APT)。我们从等离子体掺杂工艺形成的晶体管中提取了3d掺杂的轮廓和重要参数,如栅极重叠和轮廓陡峭度。分析不同掺杂工艺的样品,APT结果与器件性能完全一致(Ioff vs. Ion)。
Atom Probe Tomography for 3D-dopant analysis in FinFET devices
As the nano scale device performance depends on the detailed engineering of the dopant distribution, advanced doping processes are required. Progressing towards 3D-structures like FinFETs, studying the dopant gate overlap and conformality of doping calls for metrology with 3D-resolution and the ability to confine the analyzed volume to a small 3D-structure. We demonstrate that through an appropriate methodology this is feasible using Atom Probe Tomography (APT). We extract the 3D-dopant profile and important parameters such as gate overlap and profile steepness, from transistor formed with plasma doping processes. Analyzing samples with different doping processes, the APT results are entirely consistent with device performances (Ioff vs. Ion).
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