In this paper, we describe the principles of operation of a plasma display panel (PDP) and
the physical mechanisms controlling the performances of a PDP in terms of light emission …

Fluid, particle-in-cell and hybrid models are the numerical simulation techniques commonly
used for simulating low-temperature plasma discharges. Despite the complexity of plasma …

In most applications helium-based plasma jets operate in an open-air environment. The
presence of humid air in the plasma jet will influence the plasma chemistry and can lead to …

The structure of a capacitively coupled high-pressure glow (HPG) discharge in high-purity
helium is investigated using a detailed one-dimensional modeling approach. Impurity effects …

Touchscreens have been studied and developed for a long time to provide user-friendly and
intuitive interfaces on displays. This paper describes the touchscreen technologies in four …

The main species and chemical processes in low‐temperature atmospheric‐pressure He+
O2 plasmas are identified using a comprehensive global model. The simulation results …

For a long period, there was a resolution gap between numerical modeling and
experimental measurements, making it hard to conduct a direct comparison between them …

A numerical simulation of a dc microplasma discharge in helium at atmospheric pressure
was performed based on a one-dimensional fluid model. The microdischarge was found to …

Based on experimental results, numerical investigations of dielectric barrier discharges
(DBDs) have been performed in three basic configurations: in the volume, coplanar and …

Microdischarge (MD) devices are plasma sources typically operating at 100s Torr to
atmospheric pressure with dimensions of 10s–100s μm. Their design in based on pd …