Lagging heat models in thermodynamics and bioheat transfer: a critical review
The accuracy of the classical heat conduction model, known as Fourier's law, is highly
questioned, dealing with the micro-and nanosystems and biological tissues. In other words …
questioned, dealing with the micro-and nanosystems and biological tissues. In other words …
Boltzmann transport equation based modeling of phonon heat conduction: progress and challenges
S Mazumder - Annual Review of Heat Transfer, 2021 - dl.begellhouse.com
Heat conduction in crystalline materials occurs primarily due to propagating vibrational
waves, quantized as phonons. At submicron scales, the phonon mean free paths are often …
waves, quantized as phonons. At submicron scales, the phonon mean free paths are often …
Physics-informed neural networks for solving multiscale mode-resolved phonon Boltzmann transport equation
Boltzmann transport equation (BTE) is an ideal tool to describe the multiscale phonon
transport phenomena, which are critical to applications like microelectronics cooling …
transport phenomena, which are critical to applications like microelectronics cooling …
[HTML][HTML] Ultra-efficient and parameter-free computation of submicron thermal transport with phonon Boltzmann transport equation
Understanding thermal transport at the submicron scale is crucial for engineering
applications, especially in the thermal management of electronics and tailoring the thermal …
applications, especially in the thermal management of electronics and tailoring the thermal …
[HTML][HTML] Implementation of nonlocal non-Fourier heat transfer for semiconductor nanostructures
R Baratifarimani, Z Shomali - Case Studies in Thermal Engineering, 2024 - Elsevier
The study of heat transport in micro/nanoscale structures due to their application, especially
in Nanoelectronics, is a matter of interest. In other words, the precise simulation of the …
in Nanoelectronics, is a matter of interest. In other words, the precise simulation of the …
Pre-disaster investment decisions for strengthening the Chinese railway system under earthquakes
This study proposes a framework to determine the investment plan to strengthen a railway
system which is subject to earthquake hazard. The proposed framework includes four …
system which is subject to earthquake hazard. The proposed framework includes four …
A review of computational phononics: the bulk, interfaces, and surfaces
Broad-based interest in microscale heat transport in novel materials, engineered phononic
materials, metamaterials, and their relevant systems has created significant demand for …
materials, metamaterials, and their relevant systems has created significant demand for …
Effects of low-dimensional material channels on energy consumption of nano-devices
It is commonly believed that the significant energy saving advantages are belonged to the
logic circuits which operate at low temperature as less energy is needed for cooling them to …
logic circuits which operate at low temperature as less energy is needed for cooling them to …
Numerical solver for the out-of-equilibrium time dependent Boltzmann collision operator: application to 2D materials
Abstract The Time Dependent Boltzmann equation (TDBE) is a very efficient description of a
vast variety of strongly out-of-equilibrium dynamics which are becoming increasingly critical …
vast variety of strongly out-of-equilibrium dynamics which are becoming increasingly critical …
A time-fractional dual-phase-lag framework to investigate transistors with TMTC channels (TiS3, In4Se3) and size-dependent properties
MH Fotovvat, Z Shomali - Micro and Nanostructures, 2022 - Elsevier
In this study, a time fractional dual-phase-lag model with temperature jump boundary
condition as a choice for the Fourier's law replacement in thermal modeling of transistors, is …
condition as a choice for the Fourier's law replacement in thermal modeling of transistors, is …