Title :
Novel 3D random-network model for threshold switching of phase-change memories
Author :
Piccinini, E. ; Cappelli, A. ; Feng Xiong ; Behnam, Ashkan ; Buscemi, F. ; Brunetti, R. ; Rudan, M. ; Pop, Eric ; Jacoboni, Carlo
Author_Institution :
ARCES Res. Center, Univ. di Bologna, Bologna, Italy
Abstract :
The onset of crystallization in phase-change memory devices is studied by simulating an initially amorphous sample through a disordered network of localized states. The transport of charge and electron energy is self-consistently coupled to the Poisson and the Fourier heat equations, so that crystallization sites are found at the nanoscale. Results show how Ovonic switching and crystallization are both correlated to the formation of hot-carrier conduction paths, and the conditions for the occurrence of these phenomena are investigated. The model is then validated against data from ultra-scaled carbon-nanotube-contacted devices. Device-to-device variability of macroscopically identical devices is also analyzed.
Keywords :
Poisson equation; amorphous semiconductors; carbon nanotube field effect transistors; crystallisation; phase change memories; 3D random network model; Fourier heat equations; Ovonic switching; Poisson equation; amorphous sample; charge transport; crystallization sites; device to device variability; electron energy; hot carrier conduction paths; macroscopically identical devices; phase change memory devices; threshold switching; ultrascaled carbon nanotube contacted devices; Crystallization; Electric fields; Heating; Mathematical model; Phase change memory; Scattering; Switches;
Conference_Titel :
Electron Devices Meeting (IEDM), 2013 IEEE International
Conference_Location :
Washington, DC
DOI :
10.1109/IEDM.2013.6724686
