多层氮基纳米体系导热系数的理论模型

2022 IEEE 41st International Conference on Electronics and Nanotechnology (ELNANO) Pub Date : 2022-10-10 DOI:10.1109/ELNANO54667.2022.9926990

I. Boyko, Halyna Tsupryk, Y. Stoianov, Grygorchuk Galyna, M. Petryk

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引用次数: 0

摘要

提出了一种新的基于氮化物半导体的多层纳米结构导热系数的广义解析理论模型。所建立的理论定性地补充和概括了对单层或双层纳米结构进行的研究结果。该理论为声子场分量和应力张量分量的另一类边界条件的应用提供了数学基础。所得结果可用于描述具有任意层数的纳米结构的理论电导率相关过程。所提出的理论研究被应用于实验制备的纳米结构的热导率的计算。

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A Theoretical Model of Thermal Conductivity for Multilayer Nitride-based Nanosystems

A new generalized analytical theoretical model of thermal conductivity for multilayer nanostructures based on nitride semiconductors is proposed. The developed theory qualitatively complements and generalizes the investigations, the results of which were performed for one- or two-layer nanostructures. The theory has its mathematical basis for the application of another type of boundary conditions for the components of the phonon field and components of the stress tensor. The obtained results can be performed to describe the processes associated with the theoretical conductivity of nanostructures with an arbitrary number of layers in them. The proposed theoretical investigations are applied to the calculation of the thermal conductivity of experimentally created nanostructures.

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2022 IEEE 41st International Conference on Electronics and Nanotechnology (ELNANO)

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