The paper introduces a symmetry-based multipole classification (m=1 for centroid motion, m=2 for cross-plane emittance coupling) that unifies discussion of wake perturbations and beam-quality issues across LWFA and PWFA.
Direct Measurement of Focusing Fields in Active Plasma Lenses
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abstract
Active plasma lenses have the potential to enable broad-ranging applications of plasma-based accelerators owing to their compact design and radially symmetric kT/m-level focusing fields, facilitating beam-quality preservation and compact beam transport. We report on the direct measurement of magnetic field gradients in active plasma lenses and demonstrate their impact on the emittance of a charged particle beam. This is made possible by the use of a well-characterized electron beam with 1.4 mm mrad normalized emittance from a conventional accelerator. Field gradients of up to 823 T/m are investigated. The observed emittance evolution is supported by numerical simulations, which suggest the potential for conservation of the core beam emittance in such a plasma lens setup.
fields
physics.plasm-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
citing papers explorer
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Wake Perturbations in Laser- and Beam-Driven Plasma Wakefield Accelerators: A Symmetry-Based Multipole Classification
The paper introduces a symmetry-based multipole classification (m=1 for centroid motion, m=2 for cross-plane emittance coupling) that unifies discussion of wake perturbations and beam-quality issues across LWFA and PWFA.