The Use of Emissive Probes in Laboratory and Tokamak Plasmas

Ioniţă, C.; Grünwald, J.; Maszl, Christian; Stärz, Ronald; Čerček, M.; Fonda, B.; Gyergyek, T.; Filipič, Gregor; Kovačič, J.; Silva, Carlos; Figueiredo, H.; Windisch, T.; Grulke, O.; Klinger, T.; Schrittwieser, R.

doi:10.1002/ctpp.201000067

Cited by 29 publications

(30 citation statements)

References 24 publications

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“…A positive floating potential of an emissive probe was actually reported in Ref. [30]. However we note that our study only directly applies to thin (planar geometry) sheaths.…”

Section: Figmentioning

confidence: 98%

Strongly Emitting Surfaces Unable to Float below Plasma Potential

2016

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“…A positive floating potential of an emissive probe was actually reported in Ref. [30]. However we note that our study only directly applies to thin (planar geometry) sheaths.…”

Section: Figmentioning

confidence: 98%

Strongly Emitting Surfaces Unable to Float below Plasma Potential

2016

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“…It is then usually accepted that the measurement of the floating potential of the emissive probe provides a direct measurement of the plasma potential. While this is probably true to measure the time-averaged plasma potential, as shown by many successful measurements performed in laboratory [9][10][11] and fusion devices 5 plasmas worldwide, the question whether it is possible to directly and reliably estimate the plasma potential fluctuations using the floating potential fluctuations of an emissive probe remains open. This statement can be understood if one recall that I es and I is oscillate as the product of the electron density times the square root of the electron temperature (n ffiffiffiffi ffi T e p ) and that I em does not follow necessary these oscillations.…”

Section: Introductionmentioning

confidence: 99%

How plasma parameters fluctuations influence emissive probe measurements

et al. 2015

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Équipe 107 : Physique des plasmas chaudsInternational audienceRelationship between the floating potential of an emissive probe and plasma potential oscillations is studied in the case of controlled oscillations of plasma parameters. This relationship is compared to a quasi-static model for floating potential oscillations that assumes a constant emission current and includes the fluctuations of plasma parameters (density and electron temperature). Two different plasma regimes are considered. In the first one, the model is coherent with experimental results. In the second, the model does not fulfill one of the assumption due to the evidence of emission current oscillations when the mean emission current exceeds a given threshold. This second regime highlights the importance of taking into account emission current oscillations in the interpretation of emissive probe measurements. Nevertheless, discrepancies are still observed between emissive probe floating potential and plasma potential oscillations

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“…Important examples include fusion machines, 2,9 dusty plasmas, 10 the moon, 11 thrusters, 12,13 RF discharges, 14 probe diagnostics, 15 and heated cathodes. 16 Emission alters the charge balance at a wall, thereby altering the sheath potential.…”

mentioning

confidence: 99%

Entire plasmas can be restructured when electrons are emitted from the boundaries

Campanell

2015

Physics of Plasmas

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It is well known that electron emission can restructure the thin sheaths at plasma-facing surfaces. But conventional models assume that the plasma's structure negligibly changes (the “presheath” is still thought to be governed by ion acceleration to the Bohm speed). Here, it is shown by theory and simulation that the presheath can take a fundamentally different structure where the emitted electrons entering the quasineutral region cause numerous changes. Gradients of total plasma density, ion and electron pressures, and electric potential throughout the “inverted” presheath can carry different magnitudes, and opposite signs, from Bohm presheaths.

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The Use of Emissive Probes in Laboratory and Tokamak Plasmas

Cited by 29 publications

References 24 publications

Strongly Emitting Surfaces Unable to Float below Plasma Potential

Strongly Emitting Surfaces Unable to Float below Plasma Potential

How plasma parameters fluctuations influence emissive probe measurements

Entire plasmas can be restructured when electrons are emitted from the boundaries

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