X-ray free-electron lasers (FELs) require a very high electron beam quality in terms of emittance and energy spread. Since 2004 high quality electrons produced by laser-wakefield accelerators have been demonstrated, but the electron quality up to now did not allow the operation of a compact x-ray FEL using these electrons. Maier et al. [Phys. Rev. X 2, 031019 (2012)] suggested a concept for a proof-of-principle experiment allowing FEL operation in the vacuum ultraviolet range based on an optimized undulator and bunch decompression using electron bunches from a laser-plasma accelerator as currently available. In this paper we discuss in more detail how a chicane can be used as a bunch stretcher instead of a bunch compressor to allow the operation of a laser-wakefield accelerator driven FEL using currently available electrons. A scaling characterizing the impact of bunch decompression on the gain length is derived and the feasibility of the concept is tested numerically in a demanding scenario.
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机译:X射线自由电子激光器(FEL)就发射率和能量散布而言要求非常高的电子束质量。自2004年以来,已经证明了由激光尾波加速器产生的高质量电子,但是迄今为止,电子质量仍无法使用这些电子来运行紧凑的X射线FEL。 Maier等。 [物理Rev. X 2,031019(2012)]提出了一项原理验证实验的概念,该实验允许基于优化的波荡器和束解压缩,在真空紫外线范围内进行FEL操作,该解束和束解压缩使用的是目前可得的激光等离子加速器中的电子束。在本文中,我们将更详细地讨论如何将弯锥用作束拉伸器,而不是束压缩器,以允许使用当前可用的电子运行激光尾场加速器驱动的FEL。得出了表征束解压缩对增益长度的影响的标度,并在苛刻的情况下通过数值测试了该概念的可行性。
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