상세 보기
- Heo, Jungang;
- Cho, Youngboo;
- Ji, Hyeonseung;
- Kim, Min-Hwi;
- Lee, Jong-Ho;
- 외 2명
WEB OF SCIENCE
7SCOPUS
7초록
In this work, we compare the resistive switching characteristics between Ti/ZrOX/TiN and Ti/ZrOX/HfAlOX/TiN. The bilayer structure of the ZrOX-based device enables power consumption reduction owing to a lower forming voltage and compliance current. Moreover, the on/off ratio of the Ti/ZrOX/HfAlOX/TiN device (>102) is higher than that of the Ti/ZrOX/TiN device (>10). We use the 1/f noise measurement technique to clarify the transport mechanism of the Ti/ZrOX/HfAlOX/TiN device; consequently, ohmic conduction and Schottky emission are confirmed in the low- and high-resistance states, respectively. In addition, the multilevel cell, potentiation, and depression characteristics of the Ti/ZrOX/HfOX/TiN device are considered to assess its suitability as a neuromorphic device. Accordingly, a modified National Institute of Standards and Technology database simulation is conducted using Python to test the pattern recognition accuracy. © 2023 Author(s).
키워드
- 제목
- Noise-assisted transport mechanism analysis and synaptic characteristics in ZrOX/HfAlOX-based memristor for neuromorphic systems
- 저자
- Heo, Jungang; Cho, Youngboo; Ji, Hyeonseung; Kim, Min-Hwi; Lee, Jong-Ho; Lee, Jung-Kyu; Kim, Sungjun
- 발행일
- 2023-11
- 유형
- Article
- 저널명
- APL Materials
- 권
- 11
- 호
- 11