First Experimental Demonstration of Beam Storage by Three-Dimensional Spiral Injection Scheme for Ultra-Compact Storage Rings

Abstract

Three-dimensional spiral injection enables beam storage in ultra-compact rings with nanosecond revolution periods. We report first storage of a 297 \, keV/c electron beam in a 22 \,cm weak-focusing ring with a 4.7\,ns revolution period using a 140\,ns kicker pulse. A scintillating-fiber detector observes signals >5σ above noise for ≥ 1\, μ s, and varying the weak-focusing field potential shifts the stored-beam region, consistent with Monte Carlo predictions, validating beam storage. This proof-of-principle opens a path to ultra-compact storage rings for next-generation precision measurements.