<p>High-brightness electron bunches drive fundamental research in particle physics and photon science. Key to achieving a high brightness is to have a low transverse emittance, which ensures that the bunch can be tightly focussed. In radiofrequency accelerators a low initial emittance can be rapidly degraded due to space charge forces, which are greatly diminished once the electron bunch attains a relativistic velocity. A plasma accelerator can maintain orders-of-magnitude higher accelerating fields than radiofrequency accelerators, while multiple techniques exist to create a low emittance electron bunch directly inside the plasma accelerator structure. Plasma accelerators therefore offer a possibility to create high-brightness bunches in wakefields driven even by low-quality drive bunches. Here we demonstrate the injection and gigavolt-per-metre acceleration of electron bunches with mm-mrad normalised emittance, <InlineEquation ID="IEq1"> <EquationSource Format="TEX">\({{{\mathcal{O}}}}\)</EquationSource> <EquationSource Format="MATHML"><math> <mi class="MJX-tex-caligraphic" mathvariant="script">O</mi> </math></EquationSource> </InlineEquation>(10 pC/MeV) spectral density and per-cent-level energy spread, all with excellent reproducibility.</p>

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Bright electron bunches from a plasma-wakefield accelerator with a steep density down-ramp

  • J. C. Wood,
  • L. Boulton,
  • J. Beinortaitė,
  • J. Björklund Svensson,
  • S. Bohlen,
  • G. Boyle,
  • J. M. Garland,
  • P. Gonzalez Caminal,
  • C. A. Lindstrøm,
  • G. Loisch,
  • S. M. Mewes,
  • T. Parikh,
  • F. Peña,
  • K. Põder,
  • S. Schröder,
  • M. Thévenet,
  • S. Wesch,
  • J. Osterhoff,
  • R. D’Arcy

摘要

High-brightness electron bunches drive fundamental research in particle physics and photon science. Key to achieving a high brightness is to have a low transverse emittance, which ensures that the bunch can be tightly focussed. In radiofrequency accelerators a low initial emittance can be rapidly degraded due to space charge forces, which are greatly diminished once the electron bunch attains a relativistic velocity. A plasma accelerator can maintain orders-of-magnitude higher accelerating fields than radiofrequency accelerators, while multiple techniques exist to create a low emittance electron bunch directly inside the plasma accelerator structure. Plasma accelerators therefore offer a possibility to create high-brightness bunches in wakefields driven even by low-quality drive bunches. Here we demonstrate the injection and gigavolt-per-metre acceleration of electron bunches with mm-mrad normalised emittance, \({{{\mathcal{O}}}}\) O (10 pC/MeV) spectral density and per-cent-level energy spread, all with excellent reproducibility.