Hot-carrier stress effects on gate-induced-drain leakage current in n-channel MOSFETs studied by hydrogen/deuterium isotope effect

Kangguo Cheng; Lyding J.W.

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Hot-carrier stress effects on gate-induced-drain leakage current in n-channel MOSFETs studied by hydrogen/deuterium isotope effect

机译：通过氢/氘同位素效应研究热载流子应力对n沟道MOSFET栅极感应漏极泄漏电流的影响

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The degradation of gate-induced-drain leakage (GIDL) current under hot-carrier stress (HCS) has been studied in n-channel MOSFETs that were annealed in hydrogen (H) or deuterium (D). It is found that the degradation of GIDL current (I/sub GIDL/) can be effectively suppressed by deuterium passivation of interface traps. By using the H/D isotope effect, the impacts of oxide charge trapping (/spl Delta/N/sub ox/) and interface trap generation (/spl Delta/N/sub it/) on I/sub GIDL/ are successfully separated. The results indicate that, depending on stress and measurement conditions, I/sub GIDL/ may increase or decrease under HCS. /spl Delta/N/sub ox/ alters I/sub GIDL/ at high electric fields by varying the band-to-band tunneling current. /spl Delta/N/sub it/ alters I/sub GIDL/ at a low electric field by introducing a trap-assisted leakage component. Furthermore, evidence of hole trapping at the peak substrate current stress is indisputably presented for the first time and its impact on I/sub GIDL/ is discussed.

机译：在载流子中，在氢（H）或氘（D）中退火的n沟道MOSFET中，已经研究了在热载流子应力（HCS）下栅极感应漏极泄漏（GIDL）电流的退化。发现通过界面阱的氘钝化可以有效地抑制GIDL电流（I / sub GIDL /）的降低。通过使用H / D同位素效应，成功分离了氧化物电荷陷阱（/ spl Delta / N / sub ox /）和界面陷阱生成（/ spl Delta / N / sub it /）对I / sub GIDL /的影响。结果表明，根据应力和测量条件，HCS下I / sub GIDL /可能会增加或减少。 / spl Delta / N / sub ox /通过改变频带间隧穿电流来改变高电场下的I / sub GIDL /。 / spl Delta / N / subit /在低电场下通过引入陷阱辅助的泄漏分量来改变I / sub GIDL /。此外，毫无疑问，首次出现了在峰值衬底电流应力下出现空穴陷阱的证据，并讨论了其对I / sub GIDL /的影响。

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来源
《IEEE Electron Device Letters 》 |2003年第7期| p.487-489| 共3页
作者
Kangguo Cheng; Lyding J.W.;
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作者单位

Beckman Inst. for Adv. Sci. & Technol., Univ. of Illinois, Urbana, IL, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术 ;
关键词
hot carriers; leakage currents; MOSFET; hole traps; interface states; hot-carrier stress effects; gate-induced-drain leakage current; n-channel MOSFETs; hydrogen/deuterium isotope effect; GIDL; deuterium passivation; interface traps; oxide charge tra;

机译：热载体;漏电流MOSFET;陷阱接口状态;热载流子应力效应;栅极漏电流n沟道MOSFET;氢/氘同位素效应;GIDL;氘钝化接口陷阱;氧化物电荷;

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专利

1. Hot-carrier-stress effects on gate-induced drain leakage current in n-channel MOSFETs [J] . Lo G.Q., Joshi A.B. IEEE Electron Device Letters . 1991 ,第1期

机译：热载流子应力对n沟道MOSFET中栅极感应的漏极泄漏电流的影响
2. Effects of localized interface defects caused by hot-carrier stress in n-channel MOSFETs at low temperature [J] . Nguyen-Duc C., Cristoloveanu S. IEEE Electron Device Letters . 1988 ,第9期

机译：低温下n沟道MOSFET中热载流子应力引起的局部界面缺陷的影响
3. Improvement in off-State Leakage Current of n-Channel SOS MOSFETs by Hydrogen Annealing of the SOS Film [J] . Domyo H., Imthurn G., Ho T., Electron Devices, IEEE Transactions on . 2011 ,第11期

机译：通过SOS膜的氢退火改善n沟道SOS MOSFET的关态漏电流
4. Effects of pre-stress on hot-carrier degradation of N-channel MOSFETs [C] . Kopley T. E., OConnell B. 2011 IEEE International Integrated Reliability Workshop Final Report . 2011

机译：预应力对N沟道MOSFET热载流子退化的影响
5. THE KINETICS OF THE HOMOGENEOUS BIOMOLECULAR ISOTOPE EXCHANGE REACTIONS DEUTERIUM PLUS METHANE = HD PLUS METHANE-D, DEUTERIUM PLUS HYDROGEN-SULFIDE = HD PLUS HDS AND HD PLUS HD = HYDROGEN PLUS DEUTERIUM AS STUDIED IN SINGLE-PULSE SHOCK TUBES [D] . LEWIS, DAVID KENNETH. -1

机译：单脉冲形式的氘加甲烷=甲烷加甲烷-D，氘加氢硫化物=氘加HDS和氢加HD =氢加氘的均相生物分子同位素交换的动力学
6. Primary Deuterium Kinetic Isotope Effects: A Probefor the Origin of the Rate Acceleration for Hydride Transfer Catalyzedby Glycerol-3-Phosphate Dehydrogenase [O] . ArchieC. Reyes, Tina L. Amyes, John P. Richard, -1

机译：初级氘动力学同位素效应：探针。催化氢化物转移速率加速的起源通过甘油3-磷酸脱氢酶
7. Off-state leakage current in N-channel MOSFETs with gate dielectrics prepared by different techniques [O] . Lai PT, Zeng X, Ng WT 1995

机译：采用不同技术制备的栅极电介质的N沟道mOsFET中的断态漏电流

Hot-carrier stress effects on gate-induced-drain leakage current in n-channel MOSFETs studied by hydrogen/deuterium isotope effect

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