CERN Accelerating science

Article
Title Linac4 H$^-$ source R&D;: Cusp free ICP and magnetron discharge
Author(s) Lettry, J (CERN) ; Bertolo, S (CERN) ; Fantz, U (Garching, Max Planck Inst.) ; Guida, R (CERN) ; Kapusniak, K (CERN) ; Di Lorenzo, F (CERN) ; Machado, C (CERN) ; Mastrostefano, C (CERN) ; Minea, T (LPGP, Orsay) ; O'Neil, M (CERN) ; Neupert, H (CERN) ; Noll, D (CERN) ; Steyaert, D (CERN) ; Thaus, N (CERN)
Publication 2018
Number of pages 6
In: AIP Conf. Proc. 2052 (2018) 050008
In: 6th International Symposium on Negative Ions, Beams and Sources, Novosibirsk, Russia, 3 - 7 Sep 2018, pp.050008
DOI 10.1063/1.5083762
Subject category Accelerators and Storage Rings
Accelerator/Facility, Experiment CERN LINAC4
Abstract The 2MHz radio-frequency inductively coupled plasma heating (ICP RF) of Linac4’s IS03 H- source is more efficient without its octupole cusp in offset hallbach configuration. This was shown by Particle in cell Monte-Carlo (PICMC) simulation using the NINJA software [1] and confirmed by plasma characterization via optical emission spectroscopy [2,3], an easier plasma ignition is also anticipated. In this paper, we present preliminary results of an Alumina plasma chamber IS03 H- source [4] operated without magnetic cusp. Operation under monthly cesiation induces a slow evolution of the molybdenum cesiated surface correlated with an increase of the co-extracted electron yield. An improved stability of the extracted H- beam is achieved by compensating the Cs-losses. The high intensity option for Linac4 features an adaptation of BNL’s Magnetron. Simulation of this complex H2-Cs arc discharge plasma, where electrons are emitted from a cesiated molybdenum cathode, requires characterization of the plasma impedance and knowledge of hydrogen and cesium densities. We present a measurement of plasma impedance over the range of discharge current, hydrogen and cesium-densities.
Copyright/License © 2018 Author(s). Published by AIP Publishing.

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