Planar Multipole Resonance Probe: A kinetic model based on a functional analytic description

Michael Friedrichs; Ralf Peter Brinkmann; Jens Oberrath

Planar Multipole Resonance Probe: A kinetic model based on a functional analytic description

Michael Friedrichs
, Ralf Peter Brinkmann
, Jens Oberrath

Institute for production technology and systems

Ruhr University Bochum

Research output: Journal contributions › Conference abstract in journal › Research › peer-review

Abstract

Measuring plasma parameters, e.g. electron density and electron temperature, is an important procedure to verify the stability and behavior of a plasma process. For this purpose the multipole resonance probe (MRP) represents a satisfying solution. However, the influence of the probe on the plasma due to its physical presence makes it unattractive for processes in industrial applications. As an improvement the planar design of the MRP (pMRP) was introduced, which combines the advantages of the spherical MRP with the possibility to be integrated into the chamber wall of a plasma reactor. To measure the electron temperature with the pMRP, a kinetic model of the probe-plasma system is necessary. In this work such a kinetic model based on a functional analytic description will be presented.

Original language	English
Article number	DT2.00003
Journal	Bulletin of the American Physical Society
Volume	62
Issue number	10
Number of pages	1
ISSN	0003-0503
Publication status	Published - 2017

Research areas and keywords

Engineering

Access to Document

http://meetings.aps.org/Meeting/GEC17/Session/DT2.3Licence: Other

Kinetic modeling and simulation of the planar Multipole Resonance Probe
Oberrath, J. (Project manager, academic) & Friedrichs, M. (Project staff)
German Research Foundation
01.07.17 → 15.07.20
Project: Research

Cite this

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title = "Planar Multipole Resonance Probe: A kinetic model based on a functional analytic description",

abstract = "Measuring plasma parameters, e.g. electron density and electron temperature, is an important procedure to verify the stability and behavior of a plasma process. For this purpose the multipole resonance probe (MRP) represents a satisfying solution. However, the influence of the probe on the plasma due to its physical presence makes it unattractive for processes in industrial applications. As an improvement the planar design of the MRP (pMRP) was introduced, which combines the advantages of the spherical MRP with the possibility to be integrated into the chamber wall of a plasma reactor. To measure the electron temperature with the pMRP, a kinetic model of the probe-plasma system is necessary. In this work such a kinetic model based on a functional analytic description will be presented. ",

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author = "Michael Friedrichs and Brinkmann, \{Ralf Peter\} and Jens Oberrath",

year = "2017",

language = "English",

volume = "62",

journal = "Bulletin of the American Physical Society",

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T1 - Planar Multipole Resonance Probe: A kinetic model based on a functional analytic description

AU - Friedrichs, Michael

AU - Brinkmann, Ralf Peter

AU - Oberrath, Jens

PY - 2017

Y1 - 2017

N2 - Measuring plasma parameters, e.g. electron density and electron temperature, is an important procedure to verify the stability and behavior of a plasma process. For this purpose the multipole resonance probe (MRP) represents a satisfying solution. However, the influence of the probe on the plasma due to its physical presence makes it unattractive for processes in industrial applications. As an improvement the planar design of the MRP (pMRP) was introduced, which combines the advantages of the spherical MRP with the possibility to be integrated into the chamber wall of a plasma reactor. To measure the electron temperature with the pMRP, a kinetic model of the probe-plasma system is necessary. In this work such a kinetic model based on a functional analytic description will be presented.

AB - Measuring plasma parameters, e.g. electron density and electron temperature, is an important procedure to verify the stability and behavior of a plasma process. For this purpose the multipole resonance probe (MRP) represents a satisfying solution. However, the influence of the probe on the plasma due to its physical presence makes it unattractive for processes in industrial applications. As an improvement the planar design of the MRP (pMRP) was introduced, which combines the advantages of the spherical MRP with the possibility to be integrated into the chamber wall of a plasma reactor. To measure the electron temperature with the pMRP, a kinetic model of the probe-plasma system is necessary. In this work such a kinetic model based on a functional analytic description will be presented.

KW - Engineering

M3 - Conference abstract in journal

SN - 0003-0503

VL - 62

JO - Bulletin of the American Physical Society

JF - Bulletin of the American Physical Society

IS - 10

M1 - DT2.00003

ER -

Planar Multipole Resonance Probe: A kinetic model based on a functional analytic description

Abstract

Research areas and keywords

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Projects

Kinetic modeling and simulation of the planar Multipole Resonance Probe

Cite this