Journal ArticleDOI
Investigations of Discharge Sustenance in a Dielectric Barrier-Based Microhollow Cathode
TLDR
In this article, a microhollow cathode variant consisting of cylindrical cathode structure and a coaxial anode, with a layer of dielectric barrier on the inner wall of the cathode cavity, has been investigated.Abstract:
In this work, a microhollow cathode variant consisting of cylindrical cathode structure and a coaxial anode, with a layer of dielectric barrier on the inner wall of the cathode cavity, has been investigated. This arrangement allows the device to be operated at atmospheric pressure reaching electron densities up to 1018 m−3 in the microhollow cathode cavity. The discharge initiates from the narrow gap region between the cathode and the anode, followed by hollow cathode discharge. The presence of the anode in the discharge cavity causes the discharge electrons to be absorbed by the anode. A theoretical approach has been followed and it establishes a criterion for sustenance of this discharge in the microhollow cathode cavity. This criterion resulted from the fact that for discharge to be sustained in the hollow cathode cavity, the generation of electrons should be balanced by the absorption of electrons. Both these phenomena have been quantitatively explained by electron multiplication quotient and a multipass parameter for hollow cathode discharge has been evaluated.read more
Citations
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Microdischarge devices fabricated in silicon
TL;DR: In this paper, cylindrical microdischarge cavities with diameters 200-400 μm in diameter and 0.5-5 mm in depth have been fabricated in silicon and operated at room temperature with neon or nitrogen at specific power loadings beyond 10 kW/cm3.
References
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Journal ArticleDOI
Solving the Boltzmann equation to obtain electron transport coefficients and rate coefficients for fluid models
G J M Hagelaar,Leanne Pitchford +1 more
TL;DR: The BOLSIG+ solver as mentioned in this paper provides steady-state solutions of the BE for electrons in a uniform electric field, using the classical two-term expansion, and is able to account for different growth models, quasi-stationary and oscillating fields, electron-neutral collisions and electron-electron collisions.
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Microplasmas: sources, particle kinetics, and biomedical applications
Felipe Iza,Felipe Iza,Gon Jun Kim,Seung Min Lee,Jae Koo Lee,James L. Walsh,Yuantao T. Zhang,Michael G. Kong +7 more
TL;DR: In this article, a review of existing microplasma sources and charged particle kinetics in various microdischarges is presented, and an outlook is presented on the biomedical application of microplasmas.
Journal ArticleDOI
Microhollow cathode discharges
TL;DR: In this article, the currentvoltage characteristics of hollow cathode discharges and their predischarges in argon under dc and pulsed conditions were found to have a positive slope at pressures up to approximately 50 Torr, and currents up to 20 mA, at a hole diameter of 0.7 mm.
Journal ArticleDOI
The hollow-cathode effect and the theory of glow discharges
P. F. Little,A. von Engel +1 more
TL;DR: In this paper, the authors explored the electric field between two plane-parallel cathodes with an electron beam, and observing simultaneously the other discharge parameters, and found that the field in the two dark spaces of a hollow cathode falls linearly with the distance from the cathode, and thus the net space charge density is constant.
Journal ArticleDOI
New hollow cathode glow discharge
TL;DR: In this article, the properties and characteristics of a glow discharge to a nearly spherical hollow cathode were investigated and it was shown that current densities in excess of 0.5 amp/cm2 can be drawn from the cathode with negligible deterioration from sputtering.