1. Mechanism of power consumption inhibitive multi-layer Zn:SiO2/SiO2 structure resistance random access memory.
- Author
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Zhang, Rui, Tsai, Tsung-Ming, Chang, Ting-Chang, Chang, Kuan-Chang, Chen, Kai-Huang, Lou, Jen-Chung, Young, Tai-Fa, Chen, Jung-Hui, Huang, Syuan-Yong, Chen, Min-Chen, Shih, Chih-Cheng, Chen, Hsin-Lu, Pan, Jhih-Hong, Tung, Cheng-Wei, Syu, Yong-En, and Sze, Simon M.
- Subjects
SILICON oxide ,RANDOM access memory ,ENERGY consumption research ,ENERGY research ,AUGER electron spectroscopy - Abstract
In this paper, multi-layer Zn:SiO2/SiO2 structure is introduced to reduce the operation power consumption of resistive random access memory (RRAM) device by modifying the filament formation process. And the configuration of multi-layer Zn:SiO2/SiO2 structure is confirmed and demonstrated by auger electron spectrum. Material analysis together with conduction current fitting is applied to qualitatively evaluate the carrier conduction mechanism on both low resistance state and high resistance state. Finally, single layer and multilayer conduction models are proposed, respectively, to clarify the corresponding conduction characteristics of two types of RRAM devices. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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