核粒子检测SOI-MOSFET中浮体效应的关键问题

Digest of Papers. Microprocesses and Nanotechnology 2001. 2001 International Microprocesses and Nanotechnology Conference (IEEE Cat. No.01EX468) Pub Date : 2001-10-31 DOI:10.1109/IMNC.2001.984077

S. Abo, M. Mizutani, K. Nakayama, T. Takaoka, T. Iwamatsu, Y. Yamaguchi, S. Maegawa, T. Nishimura, A. Kinomura, Y. Horino, M. Takai

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引用次数: 0

摘要

浮体效应是由SOI体中产生的多余载流子引起的问题，它导致SOI- mosfet体电位增强。这些多余的载流子是由源极和漏极附近的强场梯度产生的热电子引起的。抑制浮体效应是实现soi - mosfet的关键。SOI衬底有两种类型:一种是完全耗尽(FD)衬底，其中SOI层为100 nm。PD衬底的制造很简单，但是在PD衬底上的SOI-MOSFET具有弯曲和浮体效应(Colinge, 1998)。体系结构的PD-SOI-MOSFET是抑制浮体效应最简单的方法，其体接触电极放置在SOI体的一侧并绑在源触点上。在我们最近的研究中，平行连接的pd - soi - mosfet的浮体效应是由核微探针辐照引起的(Takai et al .， 1999;Iwamatsu et al .， 2000)。阐明了人体接触电极的有效性。本研究通过实验和两种三维计算机模拟研究了并联和单PD和FD soi - mosfet的不稳定性。

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Inspection for critical issue of floating body effects in SOI-MOSFET using nuclear particles

Floating body effects are problems induced by the excess carriers generated in an SOI body, which results in enhancement of the body potential in SOI-MOSFETs. Such excess carriers are induced by hot electrons generated by a strong field gradient at and nearby the source and drain. Suppression of the floating body effects is important for realization of SOI-MOSFETs. There are two types of SOI substrate: one is a fully depleted (FD) substrate, where the SOI layer is <50 nm, and the other is a partially depleted (PD) substrate where the SOI layer is >100 nm. PD substrate fabrication is simple, but an SOI-MOSFET on PD substrate has kinks and floating body effects (Colinge, 1998). A PD-SOI-MOSFET with body-tied structure is the simplest way to suppress the floating body effects, in which body contact electrodes are put on the side of the SOI body and tied to the source contact. In our recent studies, floating body effects in parallel connected PD-SOI-MOSFETs were induced by nuclear microprobe irradiation (Takai et al, 1999; Iwamatsu et al, 2000). The effectiveness of the body contact electrodes was clarified. In this study, instability of parallel and single PD and FD SOI-MOSFETs has been studied by experiments and two types of three dimensional computer simulations.

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Digest of Papers. Microprocesses and Nanotechnology 2001. 2001 International Microprocesses and Nanotechnology Conference (IEEE Cat. No.01EX468)

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