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High quality electron beam generation in a proton-driven hollow plasma wakefield accelerator

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arxiv 1610.08734 v3 pith:MIPFFNPW submitted 2016-10-27 physics.acc-ph physics.plasm-ph

High quality electron beam generation in a proton-driven hollow plasma wakefield accelerator

classification physics.acc-ph physics.plasm-ph
keywords plasmabeamacceleratingchargeelectronshighproton-drivenquality
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Simulations of proton-driven plasma wakefield accelerators have demonstrated substantially higher accelerating gradients compared to conventional accelerators and the viability of accelerating electrons to the energy frontier in a single plasma stage. However, due to the strong intrinsic transverse fields varying both radially and in time, the witness beam quality is still far from suitable for practical application in future colliders. Here we demonstrate efficient acceleration of electrons in proton-driven wakefields in a hollow plasma channel. In this regime, the witness bunch is positioned in the region with a strong accelerating field, free from plasma electrons and ions. We show that the electron beam carrying the charge of about 10% of 1 TeV proton driver charge can be accelerated to 0.6 TeV with preserved normalized emittance in a single channel of 700 m. This high quality and high charge beam may pave the way for the development of future plasma-based energy frontier colliders.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Wake Perturbations in Laser- and Beam-Driven Plasma Wakefield Accelerators: A Symmetry-Based Multipole Classification

    physics.plasm-ph 2026-06 unverdicted novelty 6.0

    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.