Title :
Modeling the effects of different forming conditions on RRAM conductive filament stability
Author :
Butcher, B. ; Bersuker, Gennadi ; Vandelli, Luca ; Padovani, A. ; Larcher, Luca ; Kalantarian, A. ; Geer, R. ; Gilmer, D.C.
Author_Institution :
SEMATECH, Albany, NY, USA
Abstract :
In order to identify the factors controlling the filament characteristics, we perform physics-based simulations of the inherently stochastic and difficult-to-control forming process using a statistical Monte-Carlo method to model the Hf-O bond-breakage, oxygen ion diffusion and vacancy-oxygen recombination. Simulation results well reproduce the experimental trends observed for the conductivity of the post-forming low resistance state under different forming conditions. It is shown that the distribution of the oxygen ions in the surrounding oxide during forming as well as local filament temperature and electrical field all affect the filament stability.
Keywords :
Monte Carlo methods; chemical interdiffusion; electric field effects; ion recombination; random-access storage; vacancies (crystal); Hf-O bond-breakage; RRAM conductive filament stability; difficult-to-control forming process; electrical field; local filament temperature; oxygen ion diffusion; oxygen ions; physics-based simulations; statistical Monte-Carlo method; stochastic forming conditions; vacancy-oxygen recombination; Conductivity; Geometry; Hafnium compounds; Integrated circuits; Ions; Resistance; Temperature distribution; Hafnium; HfO2; HfO2−x; HfOx; Oxide; RRAM; ReRAM; device physics; forming; oxygen vacancies; resistive switching memory;
Conference_Titel :
Memory Workshop (IMW), 2013 5th IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4673-6168-2
DOI :
10.1109/IMW.2013.6582096
