IPAC'24 - 15th International Particle Accelerator Conference

Energy selection of synchrotron booster for SLRI beam test facility

THPG10

23 May 2024, 16:00

2h

Bluegrass (MCC Exhibit Hall A)

Poster Presentation MC2.T12 Beam Injection/Extraction and Transport Thursday Poster Session

Speaker

Kritsada Kittimanapun (Synchrotron Light Research Institute)

Description

The SLRI Beam Test Facility (SLRI-BTF) is able to produce electron test beam with maximum energy of 1.2 GeV and various intensities from a few to millions of electrons per repetition. The main components of the SLRI-BTF are the Siam Photon Source (SPS) injector consisting of a 40-MeV linear accelerator, a low-energy transport beamline, a synchrotron booster increasing electron energy to 1.2 GeV, and a high-energy transport beamline. As the SLRI-BTF has successfully utilized the electron test beam to characterize pixel sensors for high-energy particle detectors and to perform high-energy electron irradiation, the test beam with lower energy ranges has also been requested by users. In this work, the test beam with lower energy can be obtained by changing the acceleration pattern of the SPS booster and adjusting high-energy transport beamline to match the extracted beam energy. Production of test beam with lower energy can be confirmed by test beam measurement at the SLRI-BTF experimental station.

Funding Agency

This work is supported by Thailand NSRF via PMU-B (grant number B05F650021) and the National Science and Technology Development Agency (NSTDA), Thailand under contract number JRA-CO-2563-14066-TH.