Joule heating effects in nanoscale carbon-based memory devices

T. A. Bachmann,A. M. Alexeev,W.W. Koelmans,Federico Zipoli,A. K. Ott,C. Dou,Andrea Ferrari,V. K. Nagareddy,Monica F. Craciun,Vara Prasad Jonnalagadda,Alessandro Curioni,A. Sebastian,Evangelos Eleftheriou,C. D. Wright

Joule heating effects in nanoscale carbon-based memory devices

2016

T. A. Bachmann
A. M. Alexeev
W.W. Koelmans
Federico Zipoli
A. K. Ott
C. Dou
Andrea Ferrari
V. K. Nagareddy
Monica F. Craciun
Vara Prasad Jonnalagadda
Alessandro Curioni
A. Sebastian
Evangelos Eleftheriou
C. D. Wright

One of the emerging candidates to bridge the gap between fast but volatile DRAM and non-volatile but slow storage devices is tetrahedral amorphous carbon (ta-C) based memory [1]-[3]. This offers a very good scalability, data retention and sub-5ns switching [2], [3]. Amorphous carbon memory devices can be electrically and optically switched from a high resistance state (HRS) to a low resistance state (LRS) [4]. The electrical conduction in the LRS is thought to be through sp 2 clusters that form a conductive filament [4].

Keywords:

Nanotechnology
Materials science
Optoelectronics
Carbon
Amorphous carbon
Resistive random-access memory
Joule heating
Cluster (physics)
Electrical resistivity and conductivity
Dram
Electrical conductor
Electric field

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