Petawatt-laser-driven wakefield acceleration of electrons to 2 GeV in 1017 cm-3 plasma

X. Wang; R. Zgadzaj; N. Fazel; S. A. Yi; X. Zhang; W. Henderson; Y. Y. Chang; R. Korzekwa; H. E. Tsai; C. H. Pai; Z. Li; H. Quevedo; G. Dyer; E. Gaul; M. Martinez; A. Bernstein; T. Borger; M. Spinks; M. Donovan; S. Y. Kalmykov; V. Khudik; G. Shvets; T. Ditmire; M. C. Downer

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Petawatt-laser-driven wakefield acceleration of electrons to 2 GeV in 1017 cm-3 plasma

AIP Conference Proceedings (2012) 1507 341-344

DOI: 10.1063/1.4773719

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Abstract

Electron self-injection into a laser-plasma accelerator (LPA) driven by the Texas Petawatt (TPW) laser is reported at plasma densities 1.7 - 6.2 × 1017 cm-3. Energy and charge of the electron beam, ranging from 0.5 GeV to 2 GeV and tens to hundreds of pC, respectively, depended strongly on laser beam quality and plasma density. Angular beam divergence was consistently around 0.5 mrad (FWHM), while shot-to-shot pointing fluctuations were limited to ±1.4 mrad rms. Betatron x-rays with tens of keV photon energy are also clearly observed. © 2012 American Institute of Physics.

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Wang, X., Zgadzaj, R., Fazel, N., Yi, S. A., Zhang, X., Henderson, W., … Downer, M. C. (2012). Petawatt-laser-driven wakefield acceleration of electrons to 2 GeV in 1017 cm-3 plasma. In AIP Conference Proceedings (Vol. 1507, pp. 341–344). https://doi.org/10.1063/1.4773719

Petawatt-laser-driven wakefield acceleration of electrons to 2 GeV in 1017 cm-3 plasma

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