Special reliability features for Hf-based high-/spl kappa/ gate dielectrics

Ma T.P.; Bu H.M.; Wang X.W.; Song L.Y.; He W.; Miaomiao Wang; Tseng H.-H.; Tobin P.J.

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Special reliability features for Hf-based high-/spl kappa/ gate dielectrics

机译：基于H的高/ splκ/栅极电介质的特殊可靠性功能

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Several special reliability features for Hf-based high-/spl kappa/ gate dielectrics are highlighted, including: 1) trapping-induced threshold voltage (V/sub th/) shift is much more of a concern than TDDB in determining the operating lifetime; 2) n-channel MOSFETs (nMOSFETs) are more vulnerable than p-channel MOSFETs (pMOSFETs); and 3) MOSFETs with polySi gates are more vulnerable than those with metal gates. These will be discussed in the context of existing electron/hole traps and trap generation by high-field stress. A novel technique to probe traps in ultrathin gate dielectrics, inelastic electron tunneling spectroscopy (IETS), will be shown to be capable of revealing the energies and locations of traps in high-/spl kappa/ gate dielectrics.

机译：重点介绍了基于Hf的高/ spl kappa /栅极电介质的几个特殊可靠性功能，包括：1）在确定工作寿命时，与TDDB相比，陷波引起的阈值电压（V / subth /）移位更重要。 2）n沟道MOSFET（nMOSFET）比p沟道MOSFET（pMOSFET）更脆弱； 3）具有多晶硅栅极的MOSFET比具有金属栅极的MOSFET更容易受到损坏。这些将在现有的电子/空穴陷阱以及由高场应力产生陷阱的背景下进行讨论。非弹性电子隧穿光谱法（IETS）是一种探测超薄栅极电介质中陷阱的新技术，能够揭示高/ splκ/栅极电介质中陷阱的能量和位置。

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《IEEE transactions on device and materials reliability》 |2005年第1期|p.36-44|共9页
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Ma T.P.; Bu H.M.; Wang X.W.; Song L.Y.; He W.; Miaomiao Wang; Tseng H.-H.; Tobin P.J.;
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正文语种 eng
中图分类电工技术;
关键词
MOSFET; dielectric properties; semiconductor device reliability; tunnelling; electron traps; high-k gate dielectrics; hole traps; inelastic electron tunneling spectroscopy; metal gates; n-channel MOSFET; operating lifetime; p-channel MOSFET; reliability features; tra;

机译：MOSFET;介电性能;半导体器件可靠性;隧道效应;电子陷阱;高k栅极电介质;空穴陷阱;非弹性电子隧穿光谱;金属栅极;n沟道MOSFET;工作寿命;p沟道MOSFET;可靠性特征;tra;

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专利

1. Design considerations of high-/spl kappa/ gate dielectrics for sub-0.1-/spl mu/m MOSFET's [J] . Cheng B., Cao M. IEEE Transactions on Electron Devices . 1999,第1期

机译：低于0.1 / splμ/ m MOSFET的高/ spl kappa /栅极电介质的设计注意事项
2. Electrical properties of amorphous high-/spl kappa/ HfTaTiO gate dielectric with dielectric constants of 40-60 [J] . Lu N., Li H.-J., Gardner M., IEEE Electron Device Letters . 2005,第5期

机译：介电常数为40-60的非晶态高/ spl kappa / HfTaTiO栅极电介质的电性能
3. A new grounded lamination gate (GLG) for diminished fringe-capacitance effects in high-/spl kappa/ gate-dielectric MOSFETs [J] . Kumar M.J., Venkataraman V., Gupta S.K. IEEE Transactions on Electron Devices . 2006,第期

机译：一种新的接地叠层栅极（GLG），可减少高/ spl kappa /栅极电介质MOSFET中的边缘电容效应
4. Advanced gate stacks with fully silicided (FUSI) gates and high-/spl kappa/ dielectrics: enhanced performance at reduced gate leakage [C] . Gusev, E.P., Cabral, . 2005

机译：具有全硅化（FUSI）栅极和高/ splκ/电介质的高级栅极叠层：在降低栅极泄漏的情况下提高了性能
5. Compact gate capacitance and gate current modeling of ultra-thin (EOT ~ 1 nm and below) silicon dioxide and high-kappa gate dielectrics. [D] . Li, Fei. 2006

机译：紧凑的栅极电容和栅极电流建模，可用于超薄（EOT〜1 nm及以下）二氧化硅和高kappa栅极电介质。
6. High-κ oxide nanoribbons as gate dielectrics for high mobility top-gated graphene transistors [O] . Lei Liao, Jingwei Bai, Yongquan Qu, 2010

机译：高κ氧化物纳米带作为高迁移率顶栅石墨烯晶体管的栅极电介质
7. Wide-bandgap high- k Y2 O3 as passivating interlayer for enhancing the electrical properties and high-field reliability of n-Ge metal-oxide-semiconductor capacitors with high- k HfTiO gate dielectric [O] . Li CX, Lai PT 2009

机译：宽带隙高k Y2 O3作为钝化中间层，用于增强具有高k HfTiO栅极电介质的n-Ge金属氧化物半导体电容器的电性能和高场可靠性

Special reliability features for Hf-based high-/spl kappa/ gate dielectrics

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