Advanced Manufacturing, Electronics and Microsystems: TechConnect Briefs 2015Advanced Manufacturing, Electronics and Microsystems TechConnect Briefs 2015

Modeling & Simulation of Microsystems Chapter 7

Application of Dual-Phase-Lag Model for Thermal Analyses of Electronic Nanostructures

M. Janicki, M. Zubert, A. Samson, A. Napieralski
Lodz University of Technology, Poland

pp. 238 - 241

Keywords: DPL heat equation, Green's functions, nanoscale heat transfer

This paper presents the Dual-Phase-Lag (DPL) equation as a possible candidate to model heat transfer processes in electronic nanostructures. The analyses presented in this paper are carried out for a thin one-dimensional slab heated on one side by a heat flux and cooled on the other side by the imposed isothermal boundary condition. The one-dimensional benchmark structure is a 100 nm thin slab made of silicon. The paper presents detailed analyses illustrating the evolution of temperature response in time obtained for different heat conduction models.