Non-locality detection in nano-semiconductors based on lagging models
| Autor: | Sulaiman, Sharif A., Shomali, Zahra |
|---|---|
| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | As the transistors and consequently the chips are getting smaller, the accurate investigation of heat transport at micro/nanoscale, becomes an important issue of concern. This is due to an increase in the energy consumption and the leakage currents as a result of the miniaturization which requires taking care of the thermal behavior to make sure that the device is working in the threshold temperature regime. The current work deals with a two-dimensional framework, incorporating the nonlocality in space, for more accurate investigation of the nanoscale heat transport using the lower computational cost phenomenological macroscopical Dual Phase Lag (DPL) method. The non dimensional non-locality parameter {\gamma}, which indicates the strength of the non-locality, is embedded through the modified DPL model named as nonlocal DPL. It is obtained that for the two-dimensional silicon transistor, the {\gamma} parameter in x and y direction has the same value and like its behavior at one-dimension, is linearly dependent on the Knudsen number, being 1.5 for Kn=10 and 0.015 for Kn=0.1. Also, the phase lagging ratio, B, is found to be 0.08. It should be mentioned that the non-locality effect is more pronounced for smaller systems with higher Knudsen number in which the non-Fourier behavior is more evident but contemplating the non-locality parameter in systems with lower Knudsen number, makes the results more precise. In brief, it is confirmed that taking into account the {\gamma} parameter is noteworthy for accurately predicting the thermal behavior in micro/nano scale systems using the classical macroscopical methods. Comment: 9 pages, 8 figures |
| Databáze: | arXiv |
| Externí odkaz: |
|