Title :
Fast pulse analysis of TiO2 based RRAM nano-crossbar devices
Author :
Hermes, C. ; Lentz, F. ; Waser, R. ; Bruchhaus, R. ; Menzel, S. ; Fleck, K. ; Böttger, U. ; Wimmer, M. ; Salinga, M. ; Wuttig, M.
Author_Institution :
Peter Grunberg Inst., Forschungszentrum Julich, Julich, Germany
Abstract :
Switchable metal-insulator-metal (MIM) structures are the key elements for future non-volatile resistive RAM (RRAM) devices. Recently this type of memory device has attracted considerable interest due to the prospect of non-volatile data storage combined with low power consumption, excellent scalability and very fast write/read operation. However the physical processes responsible for the fast resistive switching are still under investigation. In this work we will present the replacement of the time consuming quasi-static current driven electroforming process by short voltage pulse induced electroforming. Furthermore resistive switching was measured with voltage pulses down to 5 ns pulse width with an in-situ recording of the current response. The high-frequency measurements provide a deeper insight into the physical background of fast data operation.
Keywords :
MIM structures; electroforming; low-power electronics; random-access storage; titanium compounds; RRAM nano-crossbar devices; TiO2; current response; electroforming process; fast pulse analysis; fast resistive switching; low power consumption; metal-insulator-metal structures; non-volatile data storage; non-volatile resistive RAM; time consuming quasi-static current; Current measurement; Nanoscale devices; Nonvolatile memory; Random access memory; Resistance; Switches; Voltage measurement; Resistive switching; TiO2; electroforming; fast-pulse operation;
Conference_Titel :
Non-Volatile Memory Technology Symposium (NVMTS), 2011 11th Annual
Conference_Location :
Shanghai
Print_ISBN :
978-1-4577-1428-3
DOI :
10.1109/NVMTS.2011.6137092
