Percutaneous thermal ablation has proven to be an effective modality for treating both
benign and malignant tumours in various tissues. Among these modalities, radiofrequency …

The classical model of the Fourier's law is known as the most common constitutive relation
for thermal transport in various engineering materials. Although the Fourier's law has been …

Ultrafast lasers, even the novel laser burst technology, have been widely using in numerous
applications, especially in micro-machining. The mechanism of ultrafast laser and matter …

In the generalized thermoelasticity with nonlocal effect and memory-dependent derivative,
the dynamic response of a finite thermoelastic rod fixed at both ends and subjected to a …

The paper presents a mathematical description and numerical algorithm simulating the
thermal processes occurring in the metal microdomain subjected to the ultrashort laser …

In the paper, the thermal processes occurring in the axially-symmetrical domain of multi-
layered thin metal film subjected to a strong laser pulse are considered. The problem is …

In this paper, the intact subject of 3-D MOSFETs is studied. Three well-known 3-D MOSFET
nano-devices, including a common three dimensional silicon MOSFET, the FinFET, and the …

Recently, we have developed a staggered finite difference method for studying thermal
deformation in a two-dimensional double-layered metal film exposed to ultrashort pulsed …

The dual-phase-lag model provides the best performance among many existing non-Fourier
models and it is particularly more suitable for a short duration of heating. The present …

A nonconformal domain decomposition method (DDM) is proposed to solve moderately stiff
parabolic partial differential equations in inhomogeneous domains. The proposed …