PBTI & HCI characteristics for high-k gate dielectrics with poly-Si & MIPS (metal inserted poly-Si stack) gates

PBTI & HCI characteristics for high-k gate dielectrics with poly-Si & MIPS (metal inserted poly-Si stack) gates

Reliability characteristics of high-k gate dielectrics with poly-Si gates and metal inserted poly-Si stack (MIPS) gates are investigated in terms of positive bias temperature instability (PBTI) and hot carrier injection (HCI) characteristics. The results indicate that the dopants (P or As) from the...

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Hauptverfasser: Hyung-Suk Jung, Sung Kee Han, Min Joo Kim, Jong Pyo Kim, Yun-Seok Kim, Ha Jin Lim, Seok Joo Doh, Jung Hyoung Lee, Mi Young Yu, Jong-Ho Lee, Nae-In Lee, Ho-Kyu Kang, Seong Geon Park, Sang Bom Kang
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Boron
CMOS process
CMOS technology
Degradation
Electrodes
High K dielectric materials
High-K gate dielectrics
Human computer interaction
Large scale integration
MOSFET circuits
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Zusammenfassung:Reliability characteristics of high-k gate dielectrics with poly-Si gates and metal inserted poly-Si stack (MIPS) gates are investigated in terms of positive bias temperature instability (PBTI) and hot carrier injection (HCI) characteristics. The results indicate that the dopants (P or As) from the poly-Si severely degrade PBTI and HCI characteristics. Therefore, the high-k/MIPS structure, which is not influenced by gate dopants, shows significant improvement in PBTI and HCI characteristics. For the same reason, the worst HCI condition of high-k/poly-Si structure is V/sub g/=V/sub d/ instead of V/sub g/ at I/sub sub/spl I.bar/max/, while that of high-k/MIPS structure is V/sub g/ at I/sub sub/spl I.bar/max/.
ISSN:1541-7026
1938-1891
DOI:10.1109/RELPHY.2005.1493061