Effect of conducting filament radius on local temperature and activation power of ON-state ReRAM device

Autor: Shivendra Kumar Pandey, Om Prakash Das
Rok vydání: 2021
Předmět:
Zdroj: Semiconductor Science and Technology. 36:095039
ISSN: 1361-6641
0268-1242
Popis: The formation and disruption of conducting filament (CF) are responsible for the SET/RESET switching of resistive random access memory (ReRAM). The ReRAM enters into a low resistive state (LRS) soon after the complete formation of CF and the process is followed by the radial growth of CF during the ON-state. The present investigation aims to develop a numerical and analytical model to realize the effect of CF radius on local temperature rise and activation power, combining the thermal reaction model (TRM) and power signature model. The numerical investigation is carried out using finite element method (FEM) to obtain the local temperature rise and temperature distribution across the device. The numerical results show a similar increment pattern of local temperature as of analytical TRM i.e., the local temperature increases linearly with a rapid growth rate of ~63% in initial CF radii and then gradually attains a steady-state temperature with ~10% increment in higher CF radii. The relationship between resistance and compliance current is calculated which obeys the same reported trend in other switching oxides like TiOX, CuO, NiO. Additionally, the activation power is determined where the resistance decreases (101.87 KΩ to 0.25 KΩ) due to the CF radial growth, which results four orders of exponential increment in activation power from ~0.04 µW to 500 ± 100 µW. The power signature of numerical TRM is validated with that analytical TRM where the device attends a steady-state temperature after a certain CF radius (> 25 nm) along with the activation power.
Databáze: OpenAIRE
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