Possible emittance growth induced by nonlinear space charge fields for arbitrary particle distributions

Kikuchi, Takashi; Horioka, Kazuhiko

doi:10.1103/physrevaccelbeams.19.064201

Phys. Rev. Accel. Beams

2016

DOI: 10.1103/physrevaccelbeams.19.064201

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Possible emittance growth induced by nonlinear space charge fields for arbitrary particle distributions

Takashi Kikuchi

Kazuhiko Horioka

Abstract: A procedure to obtain a ratio of beam radii at final and initial states in arbitrary particle distributions is proposed, and is applied to the estimation of possible emittance growth for Gaussian and thermal equilibrium distributions. The ratios are estimated for Gaussian and thermal equilibrium distributions as a function of tune depression. The possible emittance growth as a function of tune depression and nonlinear field energy factor is also estimated with and without a constant radius ratio approximation.… Show more

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Cited by 2 publications

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Progress in particle-beam-driven inertial fusion research: Activities in Japan

Horioka

2017

Matter and Radiation at Extremes

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Research activities in Japan relevant to particle beam inertial fusion are briefly reviewed. These activities can be ascended to the 1980s. During the past three decades, significant progress in particle beam fusion, pulsed power systems, accelerator schemes for intense beams, target physics, and high-energy-density physics research has been made by a number of research groups at universities and accelerator facilities in Japan. High-flux ions have been extracted from laser ablation plasmas. Controllability of the ion velocity distribution in the plasma by an axial magnetic and/or electric field has realized a stable high-flux low-emittance beam injector. Beam dynamics have been studied both theoretically and experimentally. The efforts have been concentrated on the beam behavior during the final compression stage of intense beam accelerators. A novel accelerator scheme based on a repetitive induction modulator has been proposed as a cost-effective particle-beam driver scheme. Beam-plasma interaction and pulse-powered plasma experiments have been investigated as relevant studies of particle beam inertial fusion. An irradiation method to mitigate the instability in imploding target has been proposed using oscillating heavy-ion beams. The new irradiation method has reopened the exploration of direct drive scheme of particle beam fusion.

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Progress in particle-beam-driven inertial fusion research: Activities in Japan

Horioka

2017

Matter and Radiation at Extremes

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show abstract

Numerical Study on Particle Distribution in Longitudinal Phase Space and Beam Current Profile using Compact Electron Beam Simulator for Heavy Ion Inertial Fusion

et al. 2017

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Possible emittance growth induced by nonlinear space charge fields for arbitrary particle distributions

Cited by 2 publications

References 18 publications

Progress in particle-beam-driven inertial fusion research: Activities in Japan

Progress in particle-beam-driven inertial fusion research: Activities in Japan

Numerical Study on Particle Distribution in Longitudinal Phase Space and Beam Current Profile using Compact Electron Beam Simulator for Heavy Ion Inertial Fusion

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