W. Bayer, W. Barth, L. Dahl, P. Forck, P. Gerhard, L. Groening, I. Hofmann, S. Yaramyshev, D. Jeon
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引用次数: 2
摘要
GSI UNILAC是一种重离子直线加速器,最初专门用于低电流束流操作,与同步加速器SIS 18一起,将作为FAIR(国际反质子和离子研究设施)的高电流注入器。UNILAC后剥离加速器由5个Alvarez油箱组成,最终能量为11.4 MeV/u。为了满足FAIR 15 emA 238U28+的要求,横向标准化发射为0.8 m mrad和2.5 mm mrad, UNILAC升级计划预计将增加主光束强度和光束亮度。有必要详细了解加速过程中的束流动力学和空间电荷主导束流的输运。为此,研究了Alvarez DTL中光束亮度与相位进动的关系。机器调查是用UNILAC建立的各种光束诊断设备进行的。2006年使用高强度重离子束进行的测量与欧洲JRA“高强度脉冲质子注入器”(HIPPI)的束流动力学工作包相吻合。给出了这些测量结果以及相应的光束动力学模拟。
High intensity heavy ion beam emittance measurements at the GSI UNILAC
The GSI UNILAC, a heavy ion linac originally dedicated for low current beam operation, together with the synchrotron SIS 18 will serve as a high current injector for FAIR (international facility for antiproton and ion research). The UNILAC post stripper accelerator consists of five Alvarez tanks with a final energy of 11.4 MeV/u. In order to meet the requirements of FAIR 15 emA 238U28+, transverse normalised emittances of 0.8 m mrad and 2.5 mm mrad an UNILAC upgrade program is foreseen to increase the primary beam intensity as well as the beam brilliance. A detailed understanding of the beam dynamics during acceleration and the transport of space charge dominated beams is necessary. For this purpose the beam brilliance dependency on the phase advances in the Alvarez DTL was studied. Machine investigations were performed with various beam diagnostics devices established in the UNILAC. Measurements done in 2006 using a high intensity heavy ion beam coincide with the beam dynamics work package of the European JRA "high intensity pulsed proton injector" (HIPPI). Results of these measurements are presented as well as corresponding beam dynamics simulations.
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