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A simple formula for diffusion calculations involving wall reflection and low density
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TLDR
In this paper, an improved boundary condition may be written simply in terms of the linear extrapolation length λ, whose inverse is the logarithmic gradient of the particle density at the boundary.Abstract:
Diffusion theory is often employed to calculate the effects of wall destruction on the local concentration of an active species immersed in a scattering gas. In many situations the spatial dependence of the concentration is given to a good approximation by the fundamental diffusion mode, and the local loss frequency can be calculated using the container’s fundamental mode diffusion length Λ. The additional assumption that the density of the active species may be taken to be zero at the container boundaries gives a value of Λ=Λ0 which depends only on the container dimensions, but use of Λ0 can be seriously in error if the diffusion mean free path λm is comparable to the dimensions, or if the particle reflection coefficient R becomes of significance. An improved boundary condition may be written simply in terms of the linear extrapolation length λ, whose inverse is the logarithmic gradient of the particle density at the boundary. The equation λ=2(1+R)λm/3(1−R) allows the representation of the full range of ...read more
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Microplasmas for nanomaterials synthesis
TL;DR: Microplasmas have attracted a tremendous amount of interest from the plasma community because of their small physical size, stable operation at atmospheric pressure, non-thermal characteristics, high electron densities and non-Maxwellian electron energy distributions as discussed by the authors.
Journal ArticleDOI
Electric probes for plasmas: The link between theory and instrument
TL;DR: In this article, a review of electric probe methods for diagnostics of plasmas is presented with emphasis on the link between the appropriate probe theories and the instrumental design, and a systematic classification of various regimes of probe operation and a summary of theories and methods for measurements of charged particle distributions.
Journal ArticleDOI
Oxygen discharges diluted with argon: dissociation processes
TL;DR: In this paper, the presence of negative ions and metastable species in a low pressure high density O2/Ar discharge in the pressure range 1?100mTorr was studied.
Journal ArticleDOI
Surface reaction probabilities and kinetics of H, SiH3, Si2H5, CH3, and C2H5 during deposition of a-Si:H and a-C:H from H2, SiH4, and CH4 discharges
TL;DR: In this paper, the surface reaction probability of an atom or a radical in a reactive gas discharge, its diffusive flux to the wall, spatial density profile and temporal density decay during the postdischarge, are examined.
Journal ArticleDOI
Electronegativity of low-pressure high-density oxygen discharges
TL;DR: In this paper, the presence of negative ions and metastable species in low-pressure high-density oxygen discharges was studied and the negative oxygen ion O- was found to be the dominant negative ion in the discharge.
References
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Journal ArticleDOI
Two‐Fluid Theory of the Positive Column of a Gas Discharge
TL;DR: In this article, the transition from inertia-limited flow to mobilitylimited flow of ions to the walls of the positive column of a planar gas discharge is analyzed from a hydrodynamic point of view.
Journal ArticleDOI
Theory of electron collision experiments at intermediate and high gas densities.
TL;DR: In this article, a two stream approximation to the equation of transfer governing the steady state concentration of monoenergetic electrons within a slab of gas bounded by two infinite planes, one of which emits a constant current density normal to its surface, is presented.
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