Device performance degradation to hot-carrier injection at energies below the Si-SiO2energy barrier

机译：在低于Si-SiO 2 势垒的能量下，器件性能下降到注入热载流子

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Device performance degradation due to hot-carriers having energies below the Si-SiO2energy barrier are examined. For a test device with Leff= 0.3 µm and Tox5 nm, transconductance degradation and/or threshold voltage shift have been detected at a drain voltage of 2.5 V, which is lower than the Si-SiO2energy barrier(∼ 3.2 eV). In particular, transconductance degradation, rather than threshold voltage shift, is more noticeable. No sharp cut-off is shown near a drain voltage of 3 V. This transconductance degradation is mainly due to an interface state increase caused by drain avalanche hot-carrier injection. It was also found that the time, τ, that it takes forG_{m} or V_{th}to degrade a certain degree, can be expressed astau propto (1/V_{D})for a VDrange of greater than 2.5 V. This degradation occurs in the same way as for long channel devices at VD

机译：研究了由于热载流子的能量低于Si-SiO 2 能垒而导致的器件性能下降。对于L eff = 0.3 µm和T ox 5 nm的测试设备，在2.5 V的漏极电压下已检测到跨导降级和/或阈值电压漂移，这低于Si-SiO 2 能垒（〜3.2 eV）。特别是，跨导降级而不是阈值电压漂移更明显。在3 V的漏极电压附近没有显示出明显的截止点。这种跨导降低主要是由于漏极雪崩热载流子注入引起的界面态增加所致。还发现， G_ {m}或V_ {th} 退化一定程度所花费的时间τ可以表示为 tau proto（1 / V_ { D}）的V D 范围大于2.5V。这种降级的发生方式与V D > 3 V的长通道器件相同因此，即使在电源电压降低之后，与热载流子相关的器件退化也可能是亚微米MOS FET中最严格的问题之一。

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《Electron Devices Meeting, 1983 International》||p.396-399|共4页
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Takeda E.; Suzuki N.; Hagiwara T.;
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Device performance degradation to hot-carrier injection at energies below the Si-SiO2energy barrier

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