共 6 条
- [1] ABE J, 2001, DRY PROC S, V187
- [2] HIGASHI K, 2000, JAP SOC APPL PHYS SP
- [3] IWASAKI N, 2001, ADV MET C AS SESS, P42
- [4] LIN S, 2001, IITC, V146
- [5] LYTLE SA, 2001, IEDM TECH
- [6] SHIMOOKA Y, SDM2001180 IEICE
A manufacturable Copper/low-k SiOC/SiCN process technology for 90nm-node high performance eDRAM
被引:48
作者:
Higashi, K
[1
]
Nakamura, N
[1
]
Miyajima, H
[1
]
Satoh, S
[1
]
Kojima, A
[1
]
Abe, J
[1
]
Nagahata, K
[1
]
Tatsumi, T
[1
]
Tabuchi, K
[1
]
Hasegawa, T
[1
]
Kawashima, H
[1
]
Arakawa, S
[1
]
Matsunaga, N
[1
]
Shibata, H
[1
]
机构:
[1] Toshiba Co Ltd, Semicond Co, Syst LSI Res & Dev Ctr, Kawasaki, Kanagawa, Japan
来源:
PROCEEDINGS OF THE IEEE 2002 INTERNATIONAL INTERCONNECT TECHNOLOGY CONFERENCE
|
2002年
关键词:
D O I:
10.1109/IITC.2002.1014873
中图分类号:
TM [电工技术];
TN [电子技术、通信技术];
学科分类号:
0808 ;
0809 ;
摘要:
In this paper, we describe the Cu/low-k (k<3) dual-damascene process integration targeting for 90nm-node (0.28um pitch) high performance embedded DRAM devices. A stable and well-controlled dual-damascene structure was realized both by using newly developed stacked mask process (S-MAP) ([1]) and a low-damage resist ashing process. Problem, and Solutions for resist poisoning due to the stopper-SiCN layer and capping-SiO2 layer are investigated. We also demonstrated a notable via chain yield (with 2.9M vias) by applying low-k PE-CVD SiOC / SiCN dielectrics.
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页码:15 / 17
页数:3
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