Speaker
Description
Plasma discharge devices have recently demonstrated their potential for compact particle beam manipulation. Building upon the Active Plasma Lens and its extension to curved geometries (Active Plasma Bending), new studies have revealed that chicane-like configurations can support sub-betatron oscillations of the beam. Motivated by this observation, the novel concept of the Plasma Discharge Undulator (PDU) is introduced. The PDU consists of a sequence of transversely displaced jointed plasma capillaries, carrying a high-current discharge. The resulting azimuthal magnetic field focuses the beam, while the periodic transverse displacement of the equilibrium axis acts as a geometric forcing term. This yields a forced oscillation at a wavelength which is distinct from the natural betatron wavelength. By proper injection, collective betatron oscillations can be suppressed, leaving only the forced beam centroid oscillation. This approach eliminates the intrinsic K-spread limitation of plasma undulators, achieving a narrow undulator strength distribution while preserving strong plasma focusing for beam matching. The theoretical framework, beam dynamics features, emittance constraints, first estimates of radiation emission from the PDU and plasma discharge simulations are presented. The PDU thus offers a pathway toward miniaturized, tunable, full-plasma-based radiation beamlines, with enhanced control over beam quality and radiation properties.
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