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Simulation of nonlinear superconducting rf losses derived from characteristic topography of etched and electropolished niobium surfaces
Xu, Chen Reece, Charles E. Kelley, Michael J.
Xu, Chen
Reece, Charles E.
Kelley, Michael J.
Abstract
A simplified numerical model has been developed to simulate nonlinear superconducting radiofrequency (SRF) losses on Nb surfaces. This study focuses exclusively on excessive surface resistance (R-s) losses due to the microscopic topographical magnetic field enhancements. When the enhanced local surface magnetic field exceeds the superconducting critical transition magnetic field H-c, small volumes of surface material may become normal conducting and increase the effective surface resistance without inducing a quench. We seek to build an improved quantitative characterization of this qualitative model. Using topographic data from typical buffered chemical polish (BCP)- and electropolish (EP)-treated fine grain niobium, we have estimated the resulting field-dependent losses and extrapolated this model to the implications for cavity performance. The model predictions correspond well to the characteristic BCP versus EP high field Q(0) performance differences for fine grain niobium. We describe the algorithm of the model, its limitations, and the effects of this nonlinear loss contribution on SRF cavity performance.
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2016-01-01
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simulation.pdf
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Physics
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https://doi.org/10.1103/PhysRevAccelBeams.19.033501