HIGH-INTENSITY LOW ENERGY BEAM TRANSPORT DESIGN STUDIES FOR THE NEW INJECTOR LINAC OF THE UNILAC

机译：UNILAC新型喷油器直线加速器的高强度低能量束流传输设计研究

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GSI will replace the Wideroe prestripper linac by an RFQ and IH-type accelerator presently under construction. The new prestripper linac should deliver beam intensities to fill up the heavy ion synchrotron SIS to the space charge limits for all ions. In case of uranium the new injector has to deliver 15 emA U~(4+). One of the two existing ion-source terminals has already been rebuilt for installation of the high current sources of CHORDIS-and MEVVA-type. Therefore, investigations of high-current beam transport have been made in the existing LEBT. For that, additional beam diagnostic elements have been installed: beam transformers, emittance measurement devices, residual gas ion spectrometer. The measured beam properties, e.g. transverse emittance, degree of space charge compensation, support the design of the future LEBT. According to the various requirements two layouts of the new LEBT have been studied so far.

机译：GSI将用目前正在建设中的RFQ和IH型加速器代替Wideroe预剥离器直线加速器。新的预剥离器直线加速器应提供光束强度，以将重离子同步加速器SIS填充到所有离子的空间电荷极限。如果使用铀，则新注射器必须提供15 emA U〜（4+）。现有的两个离子源终端之一已被重建，用于安装CHORDIS型和MEVVA型高电流源。因此，在现有的LEBT中已经进行了大电流束传输的研究。为此，安装了附加的束诊断元件：束变压器，发射率测量设备，残留气体离子光谱仪。测得的光束特性，例如横向发射，空间电荷补偿度，支持未来LEBT的设计。到目前为止，根据各种要求，已经研究了新LEBT的两种布局。

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《Proceedings of the XVIII international linear accelerator conference》|1996年|P.36|共1页
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W. Barth; L. Dahl; J. Klabunde; C. Muehle; P. Spaedtke;
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1. Particle-in-cell mode beam dynamics simulation of the low energy beam transport for the SSC-linac injector [J] . XIAO Chen, HE Yuan, YUAN You-Jin, 中国物理C（英文版） . 2011,第005期

机译：SSC直线加速器注入器低能束传输的质点模式束动力学模拟
2. Particle-in-cell mode beam dynamics simulation of the low energy beam transport for the SSC-linac injector [J] . XIAO Chen, HE Yuan, YUAN You-Jin, 中国物理C：英文版 . 2011,第005期

机译：SSC直线加速器注入器低能束传输的质点模式束动力学模拟
3. Beam Dynamics Design of a Radio-Frequency Quadrupole and a Drift Tube Linac for a High-Intensity Proton Injector [J] . Bahng Jungbae, Jang Siwon, Park Seong Hee, Journal of the Korean Physical Society . 2019,第3期

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4. HIGH-INTENSITY LOW ENERGY BEAM TRANSPORT DESIGN STUDIES FOR THE NEW INJECTOR LINAC OF THE UNILAC [C] . W. Barth, L. Dahl, J. Klabunde, International linear accelerator conference . 1996

机译：高强度低能量束传输设计研究，用于unilac的新注射器Linac
5. Experimental studies of multipass beam breakup and energy recovery using the CEBAF injector linac. [D] . Sereno, Nicholas S. R. 1994

机译：使用CEBAF喷油器直线加速器进行多程光束破碎和能量回收的实验研究。
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7. Ion sources and low energy beam transport for the new superconducting injector linac for COSY/Jülich [O] . Gebel R., Felden J. M., von Rossen P. 2004

机译：适用于COSY /Jülich的新型超导喷射直线加速器的离子源和低能束传输

HIGH-INTENSITY LOW ENERGY BEAM TRANSPORT DESIGN STUDIES FOR THE NEW INJECTOR LINAC OF THE UNILAC

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