2020
DOI: 10.1088/1361-6587/abb24e
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High-current laser-driven beams of relativistic electrons for high energy density research

Abstract: We report on enhanced laser driven electron beam generation in the multi MeV energy range that promises a tremendous increase of the diagnostic potential of high energy sub-PW and PW-class laser systems. In the experiment, an intense sub-picosecond laser pulse of ∼1019 Wcm−2 intensity propagates through a plasma of near critical electron density (NCD) and drives the direct laser acceleration (DLA) of plasma electrons. Low-density polymer foams were used for the production of hydrodynamically stable long-scale … Show more

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Cited by 61 publications
(62 citation statements)
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“…This is the case (among these four shots) where the ratio E max T /E max RF ≈ 1.6 has the lowest value. This is compatible with what is reported by Rosmej et al [25] . The use of foam targets without a metallic converter leads to a high flux of accelerated electrons, which drive the classical RF EMP generation mechanism [8][9][10][11][12] .…”
Section: Resultssupporting
confidence: 94%
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“…This is the case (among these four shots) where the ratio E max T /E max RF ≈ 1.6 has the lowest value. This is compatible with what is reported by Rosmej et al [25] . The use of foam targets without a metallic converter leads to a high flux of accelerated electrons, which drive the classical RF EMP generation mechanism [8][9][10][11][12] .…”
Section: Resultssupporting
confidence: 94%
“…As reported in Fig. 1, the area in laser forward direction, in front of the target, was devoted to diagnostics for measuring the energy, the spectra and the spatial distribution of accelerated electron beams and gamma radiation, the main purpose of the campaign [25]. At an angle of 80 ∘ degrees from the laser axis, and at a distance of 𝑑 𝐷𝑑𝑜𝑡 = 123 𝑐𝑚, we placed a D-dot differential probe (which is pictured in the photograph of Fig.…”
Section: Resultsmentioning
confidence: 99%
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“…A hydrodynamically stable, long scale-length near-critical density plasma was generated by irradiating low-density polymer foams with a nanosecond pulse kept at an intensity of approximately W/cm 2 . Then, with a delay of 2–3 ns, a short pulse of 750 fs having 100 J energy before compression, was used to irradiate this plasma, delivering up to approximately 20 J on target in an elliptical focal spot with FWHM diameters of 18 2 μm and 12 2 μm reaching an intensity of approximately W/cm 2[ 28 ] . The nanosecond pulse was used to trigger a super-sonic ionization wave and to prepare the near-critical density plasma for the subsequent main pulse.…”
Section: Resultsmentioning
confidence: 99%