NUCLEAR PHYSICS |
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Theoretical Design of a 104MHz Ladder Type IH-RFQ Accelerator |
NIE Yuan-Cun, LU Yuan-Rong**, CHEN Jia-Er, YAN Xue-Qing, GAO Shu-Li, ZHU Kun, LIU Ke-Xin, GUO Zhi-Yu
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State Key Laboratory of Nuclear Physics and Technology, Institute of Heavy Ion Physics, Peking University, Beijing 100871
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Cite this article: |
NIE Yuan-Cun, LU Yuan-Rong, CHEN Jia-Er et al 2010 Chin. Phys. Lett. 27 112901 |
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Abstract Beam dynamics and rf designs of a 104 MHz ladder type IH-RFQ (L-IH-RFQ) accelerator are finished at Peking University for the acceleration of 14C+ from 40 keV to 500 keV. As a specific feature, the output beam energy spread is as low as 0.6% achieved with the internal discrete bunching method, which makes potential applications of RFQ feasible, such as accelerator mass spectrometry and ion implantation. Tolerances of the beam dynamics design are studied by means of changing the input beam parameters, and the results are quite satisfying. On the other hand, the L-IH-RFQ structure is employed, taking advantage of its mechanical stability and the absence of inter-electrode voltage asymmetry. Radio-frequency properties are studied and optimized for reducing power loss with Microwave Studio (MWS). Tuning of the field flatness and frequency is investigated in principle.
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Keywords:
29.20.Ej
29.27.Bd
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Received: 15 April 2010
Published: 22 October 2010
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PACS: |
29.20.Ej
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(Linear accelerators)
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29.27.Bd
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(Beam dynamics; collective effects and instabilities)
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