A Kinetic Approach to the study of Ideal Multipole Resonance Probe
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in: Bulletin of the American Physical Society, Jahrgang 62, Nr. 10, DT2.00002, 2017, S. 6.
Publikation: Beiträge in Zeitschriften › Konferenz-Abstracts in Fachzeitschriften › Forschung › begutachtet
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TY - JOUR
T1 - A Kinetic Approach to the study of Ideal Multipole Resonance Probe
AU - Gong, Junbo
AU - Wilczek, Sebastian
AU - Oberrath, Jens
AU - Eremin, Denis
AU - Friedrichs, Michael
AU - Brinkmann, Ralf Peter
PY - 2017
Y1 - 2017
N2 - Active Plasma Resonance Spectroscopy (APRS) denotes a class of industry-compatible plasma diagnostic methods which utilize the natural ability of plasmas to resonate on or near the electron plasma frequency. One particular realization of APRS with a high degree of geometric and electric symmetry is Multipole Resonance Probe (MRP). The Ideal MRP (IMRP) is an even more symmetric idealization which is suited for theoretical investigations. In this work, a spectral kinetic scheme is presented to investigate the behavior of the IMRP in the low pressure regime. The scheme consists of two modules, the particles pusher and the field solver. The particle pusher integrates the equations of motion for the studied particles. The Poisson solver determines the electric field at each particle position. The fluid model is studied to provide the initial conditions of simulation for optimization reason. The proposed method overcomes the limitation of the cold plasma model and covers kinetic effects like collisionless damping.
AB - Active Plasma Resonance Spectroscopy (APRS) denotes a class of industry-compatible plasma diagnostic methods which utilize the natural ability of plasmas to resonate on or near the electron plasma frequency. One particular realization of APRS with a high degree of geometric and electric symmetry is Multipole Resonance Probe (MRP). The Ideal MRP (IMRP) is an even more symmetric idealization which is suited for theoretical investigations. In this work, a spectral kinetic scheme is presented to investigate the behavior of the IMRP in the low pressure regime. The scheme consists of two modules, the particles pusher and the field solver. The particle pusher integrates the equations of motion for the studied particles. The Poisson solver determines the electric field at each particle position. The fluid model is studied to provide the initial conditions of simulation for optimization reason. The proposed method overcomes the limitation of the cold plasma model and covers kinetic effects like collisionless damping.
KW - Engineering
KW - active plasma resonance spectroscopy
KW - multipole resonance probe
UR - http://meetings.aps.org/Meeting/GEC17/Session/DT2.2
M3 - Conference abstract in journal
VL - 62
SP - 6
JO - Bulletin of the American Physical Society
JF - Bulletin of the American Physical Society
SN - 0003-0503
IS - 10
M1 - DT2.00002
ER -