DocumentCode :
1328259
Title :
Tristate Operation in Resistive Switching of 
Thin Films
Author :
Chen, Yen-Ting ; Fowler, Burt ; Wang, Yanzhen ; Xue, Fei ; Zhou, Fei ; Chang, Yao-Feng ; Chen, Pai-Yu ; Lee, Jack C.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Texas at Austin, Austin, TX, USA
Volume :
33
Issue :
12
fYear :
2012
Firstpage :
1702
Lastpage :
1704
Abstract :
The effects of incorporating a thin silicon layer into a SiO2-based resistive-switching random access memory are presented. An improved performance, including a lower electroforming voltage and a more stable device current in the high-resistance programmed state, has been achieved by physical vapor deposition of a thin silicon layer onto the sidewall region of the device. Tristate pulse endurance performance over 106 cycles has been demonstrated. The programmed data show immunity to read disturb testing at 1 V and can be sustained up to 150°C thermal exposure. It is concluded that the improved performance is due to formation of a more robust and more uniform conducting filament. As a result of this advantage, stable tristate programming can be realized in the SiO2-based resistive memory device.
Keywords :
electroforming; random-access storage; silicon compounds; switching; thin films; vapour deposition; SiO2; conducting filament; electroforming voltage; high-resistance programmed state; physical vapor deposition; resistive memory device; resistive switching random access memory; stable device current; thermal exposure; thin film; thin silicon layer; tristate operation; tristate pulse endurance performance; voltage 1 V; Nonvolatile memory; Robustness; Silicon; Thin films; $hbox{SiO}_{x}$
fLanguage :
English
Journal_Title :
Electron Device Letters, IEEE
Publisher :
ieee
ISSN :
0741-3106
Type :
jour
DOI :
10.1109/LED.2012.2218566
Filename :
6341039
Link To Document :
