Abstract
Abstract
This paper presents a detector developed to protect the ESS
spallation target. The detector is installed to receive a proton
beam that has a peak current of
62.5 mA, an average power of
5 MW, and energy up to
2 GeV. It is designed to detect any
part of the proton beam that goes outside a defined aperture, which
is deemed as an errant beam condition. This detector is mainly used
for machine protection. The detector works based on two physical
processes. The first process is the generation of current in
metallic blades, which is proportional to the intercepting beam. The
second process is heat load from the beam energy deposition in
interacting thermocouples. The combination of these two signals
allows the detection of events ranging from microseconds to several
minutes. This paper also presents the design of the instrument, its
efficiency, and its range of operation.
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