12英寸原晶圆产生凹坑定理的研究

2013 IEEE International Conference of Electron Devices and Solid-state Circuits Pub Date : 2013-06-03 DOI:10.1109/EDSSC.2013.6628097

Po-Ying Chen, W. Yeh

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引用次数: 0

摘要

研究了晶体源粒子(cop)对超薄栅极氧化物的影响。通过控制硅锭的拉拔速度，制备了多种CZ型硅晶片，确定了COPs与超薄栅氧化物击穿特性的关系。利用光学浅缺陷分析和粒子计数器测量了cop的分布，并与厚度为2.5 ~ 5 nm栅极氧化物的时间无关介电击穿(TZDB)、时间相关介电击穿(TDDB)和应力诱导泄漏电流(SILC)的结果进行了比较。结果表明，在约3nm的厚度以下，没有明显的氧化物降解;在这个阈值以上，缺陷密度很大程度上取决于晶体起源粒子的存在。cop是ULSI器件中超薄栅极氧化物(小于5纳米)降解的主要因素。

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Study on the theorem of pits created in 12-inch raw wafering

The effect of crystal-originated particles (COPs) on ultra-thin gate oxide for recent ultra large-scale integration (ULSI) devices were studied. Various Czochralski (CZ) silicon wafers were prepared by controlling the pulling speed of silicon ingots to determine the relationships between COPs and the breakdown characteristics of the ultra thin-gate oxide. The distribution of COPs, measured by optical shallow defect analysis and the use of a particle counter, was compared with the results of time-independent dielectric breakdown (TZDB), time-dependent dielectric breakdown (TDDB) and stress-induced leakage current (SILC) for gate oxides with thicknesses of 2.5 -5 nm. The results reveal no appreciable oxide degradation below an oxide thickness of approximately 3 nm; above this threshold value, the defect density depends strongly on the presence of crystal-originated particles. The COPs are a major factor in the degradation of ultra-thin gate oxide (less than 5 nm) in ULSI devices.

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2013 IEEE International Conference of Electron Devices and Solid-state Circuits

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