Abstract
Very compact accelerating-focusing structures, as well as short focusing periods, high accelerating gradients and short drift spaces are strongly required for superconducting (sc) accelerator sections operating at low and medium energies for continuous wave (cw) heavy ion beams. To keep the GSI-super heavy element (SHE) program competitive on a high level and even beyond, a standalone sc cw linac (Helmholtz linear accelerator) in combination with the GSI high charge state injector (HLI), upgraded for cw operation, is envisaged. Recently the first linac section (financed by Helmholtz Institute Mainz (HIM) and GSI) as a demonstration of the capability of 217 MHz multigap crossbar H-mode structures (CH) has been commissioned and extensively tested with heavy ion beam from the HLI. The demonstrator setup reached acceleration of heavy ions up to the design beam energy. The required acceleration gain was achieved with heavy ion beams even above the design mass to charge ratio at high beam intensity and full beam transmission. This paper presents systematic beam measurements with varying rf amplitudes and phases of the CH cavity, as well as phase space measurements for heavy ion beams with different mass to charge ratio. The worldwide first and successful beam test with a superconducting multigap CH cavity is a milestone of the R work of HIM and GSI in collaboration with IAP in preparation of the HELIAC project and other cw-ion beam applications.
Highlights
An Universal Linear Accelerator (UNILAC) upgrade program is ongoing, designated to prepare for high intensity high current heavy ion [1,2,3,4,5], as well as for proton [6,7] synchrotron injector operation for the Facility of Antiproton and Ion Research (FAIR) [8]
This paper presents systematic beam measurements with varying rf amplitudes and phases of the crossbar H-mode structures (CH) cavity, as well as phase space measurements for heavy ion beams with different mass to charge ratio
The achieved beam commissioning of the demonstrator is a major milestone paving the way to the entire cw linac (HELIAC)
Summary
An UNILAC upgrade program is ongoing, designated to prepare for high intensity high current heavy ion [1,2,3,4,5], as well as for proton [6,7] synchrotron injector operation for the Facility of Antiproton and Ion Research (FAIR) [8]. The design and construction of cw high intensity linacs is a crucial goal of worldwide accelerator technology development [13,14,15,16,17]. Compactness of a particle accelerator is a beneficial demand for the development of high intensity cw proton and ion linacs [18,19,20]. The study and investigation of the design, operation and optimization of a cw linac, as well as progress in elaboration of the superconducting technology [21] is of high relevance
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