According to the baseline design of the 5 MW accelerator under construction in Lund, Sweden, its duty cycle will be only 4%, which leaves room for increasing the beam power and duty cycle to 10 MW and 8%, respectively. The linac power upgrade will be realized by increasing the linac pulse frequency from 14 to 28 Hz. The ESS linac pulse is 3 ms long which is too long for the cosmic ray-related background in the far neutrino detector and a 400 m circumference accumulator ring will be used to compress the beam pulse to 1.3 us. In order to be able to handle the high proton beam power, the target station will comprise four separate granular targets with neutrino horns and a decay tunnel. This poster will summarize the current results of the design and simulation work on the linac power upgrade, on the pulse compressing accumulator ring, and on the target station.
Files in Document:
Poster (Poster_APS April meeting_ESSnuSB_Linac_Accumulator_Tar...pdf, 11.5 MB)
