Title :
Implementation of HfSiON gate dielectric for sub-60nm DRAM dual gate oxide with recess channel array transistor (RCAT) and tungsten gate
Author :
Park, Seong Geon ; Jin, Beom Jun ; Lee, Hye Lan ; Park, Hong Bae ; Jeon, Taek Soo ; Cho, Hag-Ju ; Kim, Sang Yong ; Soo Ik Jang ; Kang, Sang Bom ; Shin, Yu Gyun ; Chung, U-in ; Moon, Joo Tae
Author_Institution :
Semicond. R&D Center, Samsung Electron. Co. Ltd., Kyunggi-Do, South Korea
Abstract :
In this work, HfSiON gate dielectric is integrated for the first time in dual gate oxide of DRAM with recess channel arrary transistor (RCAT) and W/poly-Si gate for the development of sub-60nm DRAM technology. No degradation of cell transistor characteristics was observed with HfSiON gate dielectric. In peripheral transistors, excellent sub-threshold swings and driving current of 515 μA/μm and 216 μA/μm for nMOS and pMOS, respectively, at Vdd=1.8V and Ioff=20μA/μm were obtained. Compared to surface channel pMOSFET, lower Vth was achieved in buried channel pMOSFET due to fermi-level pinning. Negligible increase of gate leakage current during post annealing up to 950°C for 30min is shown the excellent thermal stability of HfSiON dielectric.
Keywords :
DRAM chips; Fermi level; dielectric materials; hafnium compounds; leakage currents; nanoelectronics; thermal stability; 30 min; 60 nm; 950 C; DRAM; HfSiON; cell transistor characteristics; dual gate oxide; fermi-level pinning; gate dielectric; leakage current; pMOSFET; peripheral transistors; post annealing; recess channel array transistor; surface channel; thermal stability; tungsten gate; Annealing; Dielectrics; Energy consumption; Leakage current; MOS devices; MOSFET circuits; Moon; Random access memory; Research and development; Tungsten;
Conference_Titel :
Electron Devices Meeting, 2004. IEDM Technical Digest. IEEE International
Print_ISBN :
0-7803-8684-1
DOI :
10.1109/IEDM.2004.1419204
