Electron cyclotron resonance applicator of the Wilkinson microwave power divider type for large diameter ion sources

Fusellier, C.; Wartski, L.; Coste, Philippe; Schwebel, C.; Aubert, J.

doi:10.1063/1.1148578

Review of Scientific Instruments

1998

DOI: 10.1063/1.1148578

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Electron cyclotron resonance applicator of the Wilkinson microwave power divider type for large diameter ion sources

C. Fusellier¹,

L. Wartski²,

Philippe Coste³

et al.

Abstract: We have designed and tested a new model of coaxial 2.45 GHz electron cyclotron resonance (ECR) ion source based on the splitting of the microwave power traveling along a coaxial line into a set of periodically distributed antennas. Our motivation was the study of the scaling-up feasibility of a coaxially fed ion source in which it is desirable to circumvent the transverse electric and magnetic (TEM) mode conversion into azimuthally unsymmetrical higher-order modes. Another important characteristic of this sour… Show more

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2001

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Modified distributed electron cyclotron resonance ion source for the production of large diameter ion beams

Wartski¹,

Coste²,

Fusellier³

et al. 2001

Review of Scientific Instruments

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The work presented in this article concerns the conception and the study of a multiantenna electron cyclotron resonance (ECR) ion source at 2.45 GHz dedicated to the surface treatment of large area materials. In this original device, a microwave plasma is created in a 20 cm in diameter ionization chamber. The 15 cm in diameter extracted ion beam has a current density of about 1 mA/cm2. The applicator is an N-way coaxial power divider in which the N=20 antennas are individually magnetized by internal SmCo bars in order to produce ECR zones in their vicinity. Moreover, the microwave plasma is confined by a multicusp magnetic structure surrounding the ionization chamber. The choice of the source geometry has been guided by the study of some theoretical considerations such as the characteristic diffusion length, the minimum breakdown field, and the penetration depth of the wave into the plasma. Simulations both of the electromagnetic field and the static magnetic field distribution have been carried out in order to validate the final choice of the source geometry. A full characterization of the ECR plasma and of the extracted ion beam was made with different experimental techniques. These results allow us to localize the plasma creation zones inside the ionization chamber. A 120 mA singly charged argon ion beam with a profile homogeneity better than ±5% over 10 cm was obtained 5 cm downstream the extraction system with a 300 W microwave power and a neutral argon pressure of 10−3 mbar in the ionizing chamber.

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Modified distributed electron cyclotron resonance ion source for the production of large diameter ion beams

Wartski¹,

Coste²,

Fusellier³

et al. 2001

Review of Scientific Instruments

View full text Add to dashboard Cite

show abstract

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Electron cyclotron resonance applicator of the Wilkinson microwave power divider type for large diameter ion sources

Cited by 1 publication

References 9 publications

Modified distributed electron cyclotron resonance ion source for the production of large diameter ion beams

Modified distributed electron cyclotron resonance ion source for the production of large diameter ion beams

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