Speaker
Description
This poster explores the electrical engineering behind the Super MuSR Muon instrument, emphasising its unique requirements compared to Neutron instruments at ISIS. Super MuSR incorporates multiple precision magnets, each requiring dedicated power supplies and control systems. This introduces significant complexity in power distribution, control architecture, and system integration. Compared to neutron instruments, which require extensive shielding to manage high-energy particle interactions, muon instruments like Super MuSR benefit from significantly reduced shielding demands. This enables greater design flexibility in the electrical infrastructure.
Attendees will gain insight into how tailored electrical design enables the scientific and operational goals of Super MuSR, and how these design choices contribute to the evolving engineering practices at ISIS Neutron and Muon Source.
