Past events
Full listing
Title: Upstream Collimation in the M4 Line: Optimization, Extinction, and Mu2e Calibration
Speaker: Steven Boi, Fermilab
Abstract:
Located between the Delivery Ring and the Mu2e experiment in the Muon campus, the M4 beamline serves as the transport line for a resonantly extracted, 8kW, 8GeV pulsed proton beam to the Mu2e production target. In addition to challenges posed by elevation and directional changes, the M4 line is tasked with removing beam halo from resonant extraction and ensuring adequate inter-pulse beam extinction. A brief overview of the M4 line will be presented alongside on-going work to optimize halo collimation and minimize the radiological effects while maintaining adequate beam extinction downstream. An additional topic of the transport of the beam halo to the production target as a low-intensity beam for Mu2e calibration is also presented.
Title: Improving the performance of SRF cavities by pairbreaking mechanisms
Speaker: Alex Gurevich (Old Dominion University)
I discuss possibilities of improving the performance of SRF cavities by engineering an optimum density of states of quasiparticles at the surface, the thickness of a suboxide metallic layer, and surface nanostructuring. The surface resistance Rs(T) in the Meissner state can be optimized and even reduced below its BCS value for an ideal surface by optimizing the quasiparticle the density of states at the suface using pairbreaking mechanisms, for instance, by incorporating a small density of magnetic impurities or by tuning the thickness and conductivity of the normal suboxide layer and its contact resistance.
I also discuss recent numerical simulations of vortices driven by a strong rf field in a film with randomly distributed pinning centers which revealed complex dependencies of Rs(ω, H) on frequency and the field amplitude H, particularly, a non-monotonic dependence of Rs(H). The ways of engineering an optimal density of states by surface nano-structuring and impurity management to reduce losses in SRF cavities for particle accelerators are discussed.