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Fu, S.

Paper Title Page
TU202 The High Intensity Proton Linac for CSNS 362
 
  • H.F. Ouyang, S. Fu, J. Li, T.G. Xu, X. Yin
    IHEP Beijing, Beijing
  
 

Work on the Chinese Spallation Neutron Source (CSNS) has been progressing well, including successful prototyping of some of the key components of the facility. The source incorporates an H- linac, with an output energy upgradable from 81 to 250 MeV. The status of the project will be described.

  

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Slides

 
TUP019 Proton Linac for ADS Application in China 437
 
  • S. Fu, S.X. Fang, J.Q. Wang
    IHEP Beijing, Beijing
  • X. Guan
    CIAE, Beijing
  
 

In the next two decades, China will be in period of fast development of nuclear power to meet the energy demands of the rapid economy growth and to cut down the CO2 release. Accelerator Driven System is recognized as the best option for nuclear radioactive waste transmutation. ADS long-term development roadmap has been proposed. Based on the ADS basic study in the last decade, a samll-scale ADS facility is going to be built to do experimental research on ADS system. In this paper, we will first review the previous R&D activity on ADS linac research in China, and then introduce the design of the linac in the small-scale ADS facility.

  
TUP061 Development of a 324 MHz Drift Tube Linac for CSNS 548
 
  • X. Yin, S. Fu, K.Y. Gong, L. Liu, J. Peng, H. Song, Y.C. Xiao
    IHEP Beijing, Beijing
  
 

The CSNS is a spallation neutron research facility being built at Dongguan in Guangdong Province [1]. The 324MHz Alvarez-type Drift Tube Linac (DTL) will be used to accelerate the H- ion beam from 3 to 80.0 MeV with peak current 15mA. The R&D of a prototype structure at the low energy section of DTL is taking place at IHEP. The first unit tank 2.8m in length for the energy range from 3 to 8.88 MeV and 28 drift tubes containing electromagnetic quadrupoles are developed. This paper introduces the R&D status of the tank and 28 drift tubes. The measurement results of the focusing quadrupoles are also presented.

  
TUP062 Development of a Quadrupole Magnet for CSNS DTL 551
 
  • X. Yin, S. Fu, K.Y. Gong, J. Peng, Q.L. Peng, Y.C. Xiao, B. Yin
    IHEP Beijing, Beijing
  
 

In the 324MHz CSNS Drift Tube Linac, the electromagnetic quadrupoles will be used for transverse focusing. The R&D of the quadrupole for the lower energy section of the DTL is a critical issue because the size of the drift tube at this section is so small that it is not possible to apply the conventional techniques for the fabrication. Then the electromagnetic quadrupoles containing the SAKAE coil and a drift tube prototype containing an EMQ have been developed. In this paper, the details of the design, the fabrication process, and the measurement results for the quadrupole magnet are presented.

  
TUP063 Design of the CSNS DTL 554
 
  • X. Yin, S. Fu, K.Y. Gong, A.H. Li, H.C. Liu, J. Peng, Z.R. Sun, Y.C. Xiao
    IHEP Beijing, Beijing
  
 

In the China Spallation Neutron Source project [1], the 324HMz Alvarez-type DTL will be used to accelerate the H- ion beam from 3 to 80.0MeV. The DTL linac has been designed as four tanks and the electromagnetic quadrupoles will be used for the transverse focusing inside the drift tubes. The geometries of the DTL cells were optimized by using SUPERFISH and the beam dynamics simulation was performed with PARMILA code. In this paper both the physical design and the engineering designs are presented.