Quality factors for SRF cavities with inhomogeneous SIS coatings modeled by Gaussian random fields follow normal distributions, with standard deviation rising with inhomogeneity length scale and extreme deviations of 2-6% from uniform cases.
Next-Generation Superconducting RF Technology based on Advanced Thin Film Technologies and Innovative Materials for Accelerator Enhanced Performance and Energy Reach
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Analytical modeling suggests iron-based superconductor multilayers can sustain higher magnetic fields with lower surface resistance than bulk niobium for SRF applications.
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Numerical quality factor statistics for SRF cavities with spatially inhomogeneous multilayer coatings modeled by Gaussian random fields
Quality factors for SRF cavities with inhomogeneous SIS coatings modeled by Gaussian random fields follow normal distributions, with standard deviation rising with inhomogeneity length scale and extreme deviations of 2-6% from uniform cases.
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Analytical evaluation of surface barrier and resistance in iron-based superconducting multilayers for Superconducting Radio-Frequency applications
Analytical modeling suggests iron-based superconductor multilayers can sustain higher magnetic fields with lower surface resistance than bulk niobium for SRF applications.