Novel shallow trench isolation process using flowable oxide CVD for sub-100 nm DRAM

Sung-Woong Chung Sung-Woong Chung,Sang-Don Lee Sang-Don Lee,Jachun Ku Jachun Ku,Yong-Wook Song Yong-Wook Song,Hyun-Chul Sohn Hyun-Chul Sohn,Sungki Park Sungki Park,Sang-Tae Ahn Sang-Tae Ahn,Hyo-Sik Park Hyo-Sik Park

doi:10.1109/iedm.2002.1175820

Novel shallow trench isolation process using flowable oxide CVD for sub-100 nm DRAM

Sung-Woong Chung Sung-Woong Chung, Sang-Don Lee Sang-Don Lee + Show 6 more

https://doi.org/10.1109/iedm.2002.1175820

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Publication Date: Dec 8, 2002

Citations: 35

Affiliation: SK Group (South Korea)

#Flowable Oxide #Shallow Trench Isolation + Show 8 more

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Abstract

We have investigated the characteristics of cell leakage and data retention time when using flowable oxide chemical vapor deposition (CVD) as a shallow trench isolation (STI) process of 1-Gbit DRAM. The trench gap filling capability was increased dramatically by combining high-density plasma (HDP) CVD with flowable oxide CVD. The reduced local stress by flowable oxide in narrow trenches leaded to decrease in junction leakage and gate induced drain leakage (GIDL) current and increase in data retention time of DRAM compared to HDP STI. Therefore, it is concluded that the combination of flowable oxide and HDP oxide is the most promising technology for STI gap filling process of sub-100 nm DRAM technology.

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