A heavy ion injector linac is now under development in the Institute of Modern Physics,Chinese Academy of Science.11 Interdigital H-mode Drift Tube Linac(IH-DTL)are proposed to accelerate the heavy ions with a mass nu...A heavy ion injector linac is now under development in the Institute of Modern Physics,Chinese Academy of Science.11 Interdigital H-mode Drift Tube Linac(IH-DTL)are proposed to accelerate the heavy ions with a mass number to charge ratio(A=q)of up to 7 from 350 AkeV to an energy of around 17 AMeV,which corresponds to a total e ective voltage of 119 MV,with a total length above 38 m.展开更多
The fabrication campaign of CiADS RFQ cavity was completed in 2022.After all of five modules of CiADS RFQ cavity was made,the modules were assembled and aligned on the support plate in a cleanroom.The field tuning and...The fabrication campaign of CiADS RFQ cavity was completed in 2022.After all of five modules of CiADS RFQ cavity was made,the modules were assembled and aligned on the support plate in a cleanroom.The field tuning and RF measurements were impletemented in September.The RFQ cavity after assembly and alignment is shown in Fig.1.展开更多
文摘A heavy ion injector linac is now under development in the Institute of Modern Physics,Chinese Academy of Science.11 Interdigital H-mode Drift Tube Linac(IH-DTL)are proposed to accelerate the heavy ions with a mass number to charge ratio(A=q)of up to 7 from 350 AkeV to an energy of around 17 AMeV,which corresponds to a total e ective voltage of 119 MV,with a total length above 38 m.
文摘The fabrication campaign of CiADS RFQ cavity was completed in 2022.After all of five modules of CiADS RFQ cavity was made,the modules were assembled and aligned on the support plate in a cleanroom.The field tuning and RF measurements were impletemented in September.The RFQ cavity after assembly and alignment is shown in Fig.1.