Evolution of density-modulated electron beams in drift sections

Khan, Shaukat; Perosa, Giovanni; Sottocorona, Filippo; Brynes, Alexander; De Ninno, Giovanni; Penco, Giuseppe; Ribič, Primož Rebernic; Spampinati, Simone; Spezzani, Carlo; Trovò, Mauro; Giannessi, Luca; Allaria, Enrico; Schneidmiller, Evgeny; Ferrari, Eugenio

doi:10.1103/physrevaccelbeams.27.040702

Phys. Rev. Accel. Beams

2024

DOI: 10.1103/physrevaccelbeams.27.040702

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Evolution of density-modulated electron beams in drift sections

Shaukat Khan,

Giovanni Perosa,

Filippo Sottocorona

et al.

Abstract: Initiating the amplification process in a short-wavelength free-electron laser (FEL) by external seed laser pulses results in radiation with a high degree of longitudinal and transverse coherence. The basic layout in seeded harmonic generation involves a periodic electron energy modulation by laser-electron interaction in a short undulator (the “modulator”), which is converted into a density modulation in a dispersive section immediately followed by a long FEL undulator (the “radiator”) tuned to a harmonic of … Show more

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Cited by 2 publications

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Coherent high-harmonic generation with laser-plasma beams

Antipov,

Agapov,

Brinkmann

et al. 2024

Phys. Rev. Accel. Beams

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Active energy compression scheme is presently being investigated for future laser-plasma accelerators. This method enables generating laser-plasma accelerator electron beams with a small, ∼10−5, relative slice energy spread. When modulated by a laser pulse, such beams can produce coherent radiation at very high, ∼100th harmonics of the modulation laser wavelength, which are hard to access by conventional techniques. The scheme has a potential of providing additional capabilities for future plasma-based facilities by generating stable, tunable, narrow-band radiation. Published by the American Physical Society 2024

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Coherent high-harmonic generation with laser-plasma beams

Antipov,

Agapov,

Brinkmann

et al. 2024

Phys. Rev. Accel. Beams

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show abstract

Two-bunch seeding of soft x-ray free electron lasers

Schneidmiller,

Zagorodnov

2024

Phys. Rev. Accel. Beams

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Seeded free electron lasers (FELs) demonstrate a good performance and are successfully used in different user experiments in extreme ultraviolet and soft x-ray regimes. In this paper, a simple modification of the seeding scenario is proposed relying on the generation of two closely spaced bunches with very different properties: a low-current seeding bunch and a high-current bunch that amplifies coherent radiation, produced by the seeding bunch. This approach eliminates different limitations and mitigates some harmful effects in the standard scenario. In particular, one can generate very high harmonic numbers with a moderate laser power in a simple high-gain harmonic generation (HGHG) scheme. Alternatively, in case of moderate harmonic numbers, one can strongly reduce the required laser power thus simplifying the design of high repetition rate seeded FELs. An influence of beam dynamics effects (like nonlinearities of the longitudinal phase space of electron beams, coherent synchrotron radiation, longitudinal space charge, geometrical wakefields, and microbunching instabilities) on properties of the output radiation (spectrum broadening, pedestals, and stability) can be to a large extent reduced in the proposed scheme. In this paper, we illustrate the operation of the two-bunch seeding scheme in HGHG configuration with realistic start-to-end simulations for the soft x-ray user facility free electron laser in Hamburg. We show that nearly Fourier-limited multigigawatt pulses can be generated at 4 nm using the present compact design of the undulator system. With several thousand pulses per second, this can be a unique source for photon science. Published by the American Physical Society 2024

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Evolution of density-modulated electron beams in drift sections

Cited by 2 publications

References 28 publications

Coherent high-harmonic generation with laser-plasma beams

Coherent high-harmonic generation with laser-plasma beams

Two-bunch seeding of soft x-ray free electron lasers

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