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Study of beamlets extracted from a multi-aperture and five-stage acceleration system

M. Kashiwagi, M. Kisaki, G. Q. Saquilayan, A. Kojima, J. Hiratsuka, Masahiro Ichikawa, Yuji Shimabukuro, M. Murayama, H. Tobari

2022Review of Scientific Instruments10 citationsDOI

Abstract

, has been performed experimentally and analytically using a multi-aperture and five-stage accelerator. Initially, multi-beamlets generated from this accelerator were deflected in various directions due to the magnetic field and space charge repulsion between beams and showed various divergences. These had limited the pulse length and the beam energy. Compensation methods of the beamlet deflections have worked effectively and contributed to achieving the ITER requirement, the divergence angle of <7 mrad, and the deflection angle of <1 mrad for 1 MeV beam. The beam pulse has been gradually extended from 1 to 100 s and is now going to a longer pulse based on these results. One of the remaining issues is to understand and suppress peripheral components of the beam, namely, the halo, and to reduce the local heat loads observed around the aperture edge. This halo component has been successfully distinguished from the beam core by using a newly developed beam emittance measurement system for high intense beams. By combining this measured beam emittance and the beam simulation, it was clarified for the first time that the halo components are generated in an area of 1 mm width from the aperture edge.

Topics & Concepts

Beam divergenceOpticsBeam (structure)Aperture (computer memory)Thermal emittancePhysicsBeam diameterDeflection (physics)Laser beam qualityBeam emittanceM squaredLaserLaser beamsAcousticsParticle accelerators and beam dynamicsMagnetic confinement fusion researchParticle Accelerators and Free-Electron Lasers
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