A new heavy-ion linac within a continuous-wave (CW) 4-rod radio-frequency quadrupole (RFQ) was designed and constructed as the injector for the separated-sector cyclotron (SSC) at the Heavy Ion Research Facility at Lanzhou (HIRFL). In this paper, we present the development of and the beam commissioning results for the 53.667 MHz CW RFQ. In the beam dynamics design, the transverse phase advance at zero current, ${\sigma }_{0\perp }$, is maintained at a relatively high level compared with the longitudinal phase advance (${\sigma }_{0\parallel }$) to avoid parametric resonance. A quasi-equipartitioning design strategy was applied to control the emittance growth and beam loss. The installation error of the electrodes was checked using a FARO 3D measurement arm during the manufacturing procedure. This method represents a new approach to measuring the position shifts of electrodes in a laboratory environment and provides information regarding the manufacturing quality. The experimental results of rf measurements exhibited general agreement with the simulation results obtained using CST code. During on-line beam testing of the RFQ, two kinds of ion beams (${{}^{40}\mathrm{Ar}}^{8+}$ and ${{}^{16}\mathrm{O}}^{5+}$) were transported and accelerated to $142.8\mathrm{keV}/\mathrm{u}$, respectively. These results demonstrate that the SSC-Linac has made a significant progress. And the design scheme and technology experiences developed in this work can be applied to other future CW RFQs.

• Received 22 May 2015

DOI:https://doi.org/10.1103/PhysRevAccelBeams.19.010402

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Published by the American Physical Society