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Terawatt attosecond x-ray source driven by a plasma accelerator

C. Emma, X. Xu, A. Fisher, R. Robles, J. P. MacArthur, J. Cryan, M. J. Hogan, P. Musumeci, G. White, A. Marinelli

2021APL Photonics34 citationsDOIOpen Access PDF

Abstract

Plasma accelerators can generate ultra-high-brightness electron beams that open the door to light sources with a smaller physical footprint and properties un-achievable with conventional accelerator technology. In this paper, we show that electron beams from Plasma WakeField Accelerators can generate few-cycle coherent tunable soft x-ray pulses with TW peak power and a duration of tens of attoseconds, an order of magnitude more powerful, shorter, and with better stability than state-of-the-art X-ray Free Electron Lasers (XFELs). Such a light source would significantly enhance the ability to experimentally investigate electron dynamics on ultrafast timescales, having a broad-ranging impact across multiple scientific fields. Rather than starting from noise as in typical XFELs, the x-ray emission in this approach is driven by coherent radiation from a pre-bunched, high peak current electron beam of attosecond duration. This relaxes the restrictive tolerances that have hindered progress toward utilizing plasma accelerators as coherent x-ray drivers thus far, presenting a new paradigm for advanced accelerator light source applications.

Topics & Concepts

PhysicsAttosecondPlasmaOpticsParticle acceleratorElectronPlasma accelerationUltrashort pulseLaserRadiationCathode rayLinear particle acceleratorNoise (video)Beam (structure)AccelerationAtomic physicsExtreme ultravioletPower (physics)Free electron modelSuperradianceWaves in plasmasParticle Accelerators and Free-Electron LasersLaser-Plasma Interactions and DiagnosticsAdvanced X-ray Imaging Techniques
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