Title :
Thickness scaling limitation factors of ONO interpoly dielectric for nonvolatile memory devices
Author :
Mori, Seiichi ; Araki, Yoshiko Yamaguchi ; Sato, Muneharu ; Meguro, Hisataka ; Tsunoda, Hiroaki ; Kamiya, Eiji ; Yoshikawa, Kuniyoshi ; Arai, Norihisa ; Sakagami, Eiji
Author_Institution :
Semicond. Device Eng. Lab., Toshiba Corp., Kawasaki, Japan
fDate :
1/1/1996 12:00:00 AM
Abstract :
This paper describes the scaling limitation factors of ONO interpoly dielectric thickness, mainly considering the charge retention capability and threshold voltage stability for nonvolatile memory cell transistors with a stacked-gate structure, based on experimental results. For good intrinsic charge retention capability, either the top- or bottom-oxide thickness should be greater than around 6 nm. On the other hand, a thicker top oxide structure is preferable to minimize degradation due to defects. It has been confirmed that a 3.2 nm bottom-oxide shows detectable threshold voltage instability, but 4 nm does not. Effective oxide thickness scaling down to around 13 nm should be possible for flash memory devices with a quarter-micron design rule
Keywords :
EPROM; MOS memory circuits; VLSI; cellular arrays; dielectric thin films; 0.25 micron; 3 to 13 nm; MOS process; ONO interpoly dielectric; charge retention capability; flash memory devices; memory cell transistors; nonvolatile memory devices; quarter-micron design rule; stacked-gate structure; thickness scaling limitation factors; threshold voltage stability; Degradation; Dielectric devices; Dielectric substrates; Flash memory; Nonvolatile memory; Semiconductor films; Silicon compounds; Stability; Testing; Threshold voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
