Improvement of data retention in HfO2/Hf 1T1R RRAM cell under low operating current

Author

Yang Yin Chen ; Komura, M. ; Degraeve, Robin ; Govoreanu, B. ; Goux, L. ; Fantini, Andrea ; Raghavan, N. ; Clima, S. ; Leqi Zhang ; Belmonte, A. ; Redolfi, A. ; Kar, Gouri Sankar ; Groeseneken, Guido ; Wouters, D.J. ; Jurczak, Malgorzata

Author_Institution

Imec, Leuven, Belgium

fYear

2013

fDate

9-11 Dec. 2013

Abstract

One of the key concerns related to low operating current (<;50μA) of RRAM is the degraded data retention. Most of the retention studies so far focused on high switching current range. In this work, we investigate the retention degradation mechanism at low programming current range (10-40μA) and identify the key parameters that control retention in oxygen vacancy filamentary switching HfO<;sub>2<;/sub>/Hf 1T1R RRAM cells. Based on this understanding we demonstrated significant improvement in retention by adding an additional thermal budget into our process flow. The impact of the Forming process on retention property was also investigated and Forming/SET conditions were optimized to improve the retention without increasing the operation current.

Keywords

hafnium compounds; random-access storage; vacancies (crystal); 1T1R RRAM cell; HfO₂-Hf; SET conditions; control retention; current 10 muA to 40 muA; data retention; forming process; low operating current; oxygen vacancy filamentary switching; process flow; programming current range; retention degradation mechanism; retention property; switching current range; thermal budget; Annealing; Degradation; Frequency modulation; Hafnium compounds; Mobile communication; Switches;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting (IEDM), 2013 IEEE International

Conference_Location

Washington, DC

Type

conf

DOI

10.1109/IEDM.2013.6724598

Filename

6724598