MATERIALS INTERACTION AT THE NANOSCALE IN HIGH-K METAL GATE STACKS: THE ROLE OF OXYGEN

机译：高k金属栅极堆栈中纳米级的材料相互作用：氧气的作用

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We have studied tungsten gated hafnium oxide silicon MOSFETs and show that dissolved oxygen in the tungsten metal can diffuse to the hafnium oxide silicon interface, resulting in interfacial oxide growth and higher mobilities. These results indicate that even small amounts of dissolved oxygen in metal gates is a key issue that can impact device microstructure. We also examine the formation of this oxide and show that there is critical oxygen vacancy concentration in the hafnium oxide, below which interfacial silicon oxide formation will be favorable and above which the interfacial oxide will be unstable.

机译：我们研究了钨门控氧化铪硅MOSFET，并显示钨金属中的溶解氧可以扩散到氧化铪硅界面上，导致界面氧化物生长和更高的迁移率。这些结果表明，即使金属浇口中的少量溶解氧也是可以影响装置微观结构的关键问题。我们还检查了该氧化物的形成，并表明氧化铪中存在临界氧空位浓度，低于该氧化硅氧化硅形成将有利，并且上述界面氧化物将是不稳定的。

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《International Symposium on High Dielectric Constant Gate Stacks》|2006年||共8页
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S. Guha; E. Preisler; N. A. Bojarczuk; M. Copel;
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中图分类 TM21-532;
关键词
MATERIALS INTERACTION; HIGH-K METAL GATE STACKS; OXYGEN;

机译：材料相互作用;高k金属栅极堆叠;氧气;

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4. MATERIALS INTERACTION AT THE NANOSCALE IN HIGH-K METAL GATE STACKS: THE ROLE OF OXYGEN [C] . S. Guha, E. Preisler, N. A. Bojarczuk, International Symposium on High Dielectric Constant Gate Stacks . 2006

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MATERIALS INTERACTION AT THE NANOSCALE IN HIGH-K METAL GATE STACKS: THE ROLE OF OXYGEN

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