Rapid threshold switching dynamics of co-sputtered chalcogenide Ge15Te85 device for selector application

Threshold switching is a unique characteristic feature in amorphous chalcogenide materials that establishes stable and fast switching between a high resistance OFF state and a conductive ON state in the amorphous phase, envisaging the electronic nature of two-terminal ovonic threshold switch (OTS) selectors in vertically stackable cross-point memory arrays. In this paper, we demonstrate voltage-dependent nanosecond threshold switching dynamics and stable OFF-ON transitions of co-sputtered thin Ge15Te85 film devices using ultrafast time-resolved current-voltage measurements. The time-resolved measurement of device current upon the application of voltage pulse reveals a stable threshold switching and OFF-ON transient characteristics of OTS devices and the measured delay time is found to decrease to few nanoseconds upon increasing the amplitude of the applied voltage pulse and such OTS characteristics are found to be stable even above 60% of the high value of threshold voltage. These experimental results found to be consistent with analytical solutions and also demonstrate a systematic trend in the voltage dependent switching properties enabling ultrafast threshold switching characteristics suitable towards designing reliable and stable OTS selector devices.

Automated summary

This study investigates the threshold switching phenomenon in amorphous chalcogenide materials, demonstrating its stable and fast switching characteristics through experiments. The results show that adjusting the voltage pulse amplitude can decrease the delay time, and the threshold switching properties remain stable even above 60% of the high threshold voltage.