Abstract
Transverse emittance growth along the Alvarez drift tube linac (DTL) section is a major concern with respect to the preservation of beam quality of high current beams at the GSI UNILAC. In order to define measures to reduce this growth, appropriate tools to simulate the beam dynamics are indispensable. This paper is about the benchmarking of three beam dynamics simulation codes, i.e. DYNAMION, PARMILA, and PARTRAN against systematic measurements of beam emittances for different transverse phase advances along the DTL. Special emphasis is put on the modeling of the initial distribution for the simulations. The concept of rms equivalence is expanded from full intensity to fractions of less than 100% of the beam. The experimental setup, data reduction, preparation of the simulations, and the evaluation of the simulations are described. In the experiments and in the simulations, a minimum of the rms-emittance growth was observed at zero current phase advances of about 60\ifmmode^\circ\else\textdegree\fi{}. In general, good agreement was found between simulations and experiment for the mean values of horizontal and vertical emittances at the DTL exit.
Highlights
At GSI currently the new Facility for Antiproton and Ion Research (FAIR) is under design [1]
The campaign aimed at the study of the final drift tube linac (DTL) rms emittance as a function of the transverse focusing strength along the DTL
Measurements were compared with DYNAMION simulations using 4300 particles (3D-particleparticle interaction) and with PARMILA (V 2.32) and PARTRAN simulations using 2 Â 105 particles (PICNIC3D solver)
Summary
At GSI currently the new Facility for Antiproton and Ion Research (FAIR) is under design [1]. The existing GSI facility will serve as an injector chain for FAIR and must deliver the primary beam intensities It comprises the UNIversal Linear ACcelerator (UNILAC), the heavy ion synchrotron SIS, and an experimental storage ring. A benchmark activity had been integrated into the Joint Research Activity CARE (Coordinated Accelerator Research in Europe) [3] supported by the European Commission It aims at the simulation of systematic beam emittance measurements performed at the DTL entrance and exit, respectively. A previous benchmarking study on halo formation was performed at Los Alamos It compared measured transverse profiles of a high intensity proton beam with simulated profiles along a transport channel without acceleration [7,8]. A 7.1 mA beam of 40Ar10þ is space charge equivalent to a 15 mA beam of 238U28þ
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