Title :
On the impact of the oxide thickness and reset conditions on activation energy of HfO2 based ReRAM extracted through disturb measurements
Author :
Diokh, T. ; Le-Roux, E. ; Jeannot, S. ; Candelier, P. ; Perniola, L. ; Nodin, J.F. ; Jousseaume, V. ; Cabout, Thomas ; Grampei, H. ; Jalaguier, E. ; De Salvo, B.
Author_Institution :
STMicroelectron., Crolles, France
Abstract :
In this paper, the failure acceleration behavior of HfO2 based ReRAM under constant voltage and high temperature stresses is studied. We extract the activation energy from disturb measurements in the High Resistance State (HRS) for different dielectrics. Various Reset conditions are studied and correlated to the failure mechanism. Low activation energy is obtained in thin dielectric oxides. Based on the hypothesis that the activation energy is linked to the number of oxygen vacancies (i.e. residual conductive filament) in the oxide film, we show that an optimal Reset condition (in terms of voltage stop) can reduce the activation energy in thin HfO2. On the other hand, the activation energy is higher in thick dielectrics films and it is also tunable thanks to the voltage stop of previous Reset operation.
Keywords :
hafnium compounds; high-k dielectric thin films; random-access storage; reliability; vacancies (crystal); HfO2; ReRAM; activation energy; disturb measurements; failure acceleration behavior; high resistance state; oxide thickness; oxygen vacancies; reset conditions; resistive random access memory; thin dielectric oxides; Acceleration; Dielectrics; Hafnium compounds; Random access memory; Stress; Switches; Temperature dependence; Activation energy; HfO2 ReRAM; Reliability/disturb/retention; oxygen vacancies; reset voltage stop;
Conference_Titel :
Integrated Reliability Workshop Final Report (IRW), 2013 IEEE International
Conference_Location :
South Lake Tahoe, CA
Print_ISBN :
978-1-4799-0350-4
DOI :
10.1109/IIRW.2013.6804170
