Title :
Investigation of Trap Spacing for the Amorphous State of Phase-Change Memory Devices
Author :
Jeyasingh, Rakesh G D ; Kuzum, Duygu ; Wong, H. -S Philip
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., Stanford, CA, USA
Abstract :
The subthreshold conduction in the amorphous state of the phase-change material is dominated by the hopping of the carriers through the trap states or localized states with the assistance of the electric field across the material. It is important to understand the nature and number of these traps to properly model the physics of the conduction, threshold switching, and drift in phase-change materials. In this paper, we present a device structure and a methodology to extract the trap spacing directly from the I-V characteristics of the device. Furthermore, the dependence of the trap spacing on the amorphous region thickness, reset voltage, and drift is also discussed. These results are then correlated with the 1/f noise measurements of the device.
Keywords :
amorphous state; electric fields; phase change materials; phase change memories; 1-f noise measurements; I-V characteristics; amorphous region thickness; amorphous state; electric field; localized states; phase-change material; phase-change memory devices; reset voltage; subthreshold conduction; threshold switching; trap spacing; trap states; Electrical resistance measurement; Electron traps; Heating; Noise; Phase change materials; Resistance; Threshold voltage; $hbox{1}/f$ noise; Phase change; subthreshold conduction; trap states;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2169798
