A new interferometric/polarimetric setup for plasma density measurements in compact microwave-based Ion Sources

Torrisi, G.; Naselli, E.; Castro, G.; Celona, L.; Sorbello, G.; Gammino, S.

doi:10.1088/1748-0221/12/10/c10003

Cited by 8 publications

(9 citation statements)

References 12 publications

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“…Hereby we show the data coming from polarimetric measurements (preliminary dataset are already commented in the paper [7]) that have allowed the first line-integrated measurement of plasma density via Faraday-rotation in ECRISs.…”

Section: Introductionmentioning

confidence: 99%

The first measurement of plasma density by means of an interfero-polarimetric setup in a compact ECR-plasma trap

Naselli¹,

Torrisi²,

Castro³

et al. 2018

J. Inst.

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This paper presents the first measurement of plasma density by a K-band microwave polarimetric setup able to measure the magnetoplasma-induced Faraday rotation in a compact size plasma trap. The polarimeter, based on rotating waveguide OMTs (OrthoModeTransducers), has been proven to provide reliable measurements of the plasma density even in the unfavorable conditions λp≈ Lp≈ Lc (being λp, Lp and Lc the probing signal wavelength, the plasma dimension and the plasma chamber length respectively) that complicates the measurements due to multi-patterns caused by reflections of the probing wave on the metallic walls of the plasma chamber. An analysis method has been developed on purpose in order to discriminate the polarization plane rotation due to magnetoplasma Faraday rotation only, excluding the effects of the cavity resonator. The measured density is consistent with the previous plasma density interferometric estimations. The developed method is a powerful tool for probing plasmas in very compact magnetic traps such as Electron Cyclotron Resonance Ion Sources and for in-plasma β-radionuclides' decay studies.

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Section: Introductionmentioning

confidence: 99%

The first measurement of plasma density by means of an interfero-polarimetric setup in a compact ECR-plasma trap

Naselli¹,

Torrisi²,

Castro³

et al. 2018

J. Inst.

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“…Moreover, in order to deal with expected plasma profile having physical meaning, two further constraints are added in the solution of the convex problem: the first one is the positivity constraint about the retrievable value of the plasma angular frequency, while the second one is a prior information about the estimated/expected support of the plasma density profile over the chamber axis. This latter, can be inferred by a priori information from experimental measurements [1,2] or performing a preliminary reconstruction via standard L 2 -norm approaches, with the aim to retrieve only the location wherein the plasma slab is different from zero [10].…”

Section: Jinst 14 C09031mentioning

confidence: 99%

“…Non-invasive measurements of electron density and temperature in magnetoplasmas are crucial for improving plasma-heating efficiency in ECRIS (Electron Cyclotron Resonance Ion Sources) and MDIS (Microwave Discharge Ion Sources). Recently, non-invasive diagnostic methods based on microwave interferometry and polarimetry [1,2], X-ray and optical emission spectroscopy [3,4], have been developed to measure the line-of-sight-averaged electron density in compact microwavebased plasma ion sources. These plasma diagnostics tools are even more important for the study and development of heating schemes alternative to ECR employing Electrostatic Bernstein Waves in overdense plasma [5].…”

Section: Introduction and Motivationsmentioning

confidence: 99%

Electromagnetic inverse profiling for plasma diagnostics in compact microwave-based ion sources

et al. 2019

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In this paper the problem of plasma diagnostics is faced as the solution of a onedimensional single-view multi-frequency electromagnetic inverse scattering technique. The aim of the problem is to provide effective means for plasma diagnostics by considering the dispersive properties of such medium. The inverse profiling, assessed against full-wave simulated data dealing with reliable benchmarks for microwave imaging, is carried out by exploiting a first order linearized method (Rytov approximation) and Compressive Sensing based approaches in order to attain reconstruction as reliable and accurate as possible. The recovered 1D-plasma density profile allows to complete line-integrated densities measurements already performed by microwave interferometry and polarimetry system VESPRI at INFN-LNS in Catania. This may represent a promising powerful tool for probing plasmas in very compact magnetic traps such as Electron Cyclotron Resonance Ion Sources and open the way to new facilities in plasma microwave diagnostics. K: Plasma diagnostics -interferometry, spectroscopy and imaging; Ion sources (positive ions, negative ions, electron cyclotron resonance (ECR), electron beam (EBIS)); Modeling of microwave systems 1Corresponding author.

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“…The set of diagnostics developed in the last years at INFN-LNS is now suitable for multi-component analysis of a magnetoplasma of an ECRIS-type plasma trap. At the present time, an interferopolarimetric setup named VESPRI [14] is going to be completed, and first measurements of lineintegrated plasma densities have been carried out [15]. For the requests of the forthcoming projects, however, such as PANDORA [16] (Plasmas for Astrophysics, Nuclear Decays Observation and Radiation for Archaeometry), even more advanced diagnostics systems will be needed.…”

Section: Perspectivesmentioning

confidence: 99%

Electromagnetic diagnostics of ECR-Ion Sources plasmas: optical/X-ray imaging and spectroscopy

et al. 2017

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A new interferometric/polarimetric setup for plasma density measurements in compact microwave-based Ion Sources

Cited by 8 publications

References 12 publications

The first measurement of plasma density by means of an interfero-polarimetric setup in a compact ECR-plasma trap

The first measurement of plasma density by means of an interfero-polarimetric setup in a compact ECR-plasma trap

Electromagnetic inverse profiling for plasma diagnostics in compact microwave-based ion sources

Electromagnetic diagnostics of ECR-Ion Sources plasmas: optical/X-ray imaging and spectroscopy

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