Memory switching of germanium tellurium amorphous semiconductor

Abstract

The dc conductivity and switching properties of amorphous GeTe thin film of thickness 262nm are investigated in the temperature range 303–373K. The activation energy ΔEσ, the room temperature electrical conductivity σRT and the pre-exponential factor σ0 were measured and validated for the tested sample. The conduction activation energy ΔEσ is calculated. The I–V characteristic curves of the thin film samples showing a memory switching at the turnover point (TOP) from high resistance state (OFF state) to the negative differential resistance state (NDRS) (ON state). It is found that the mean values of the threshold electrical field Eth decreased exponentially with increasing temperatures in the investigated range. The switching activation energy ΔEth is calculated. Measurements of the dissipated threshold power Pth and the threshold resistance Rth were carried out at TOP point at different temperatures of the samples. The activation energies ΔER and ΔEP caused by resistance and power respectively are deduced. The results obtained support thermal model for initiating switching process in this system.