Two-pass two-way acceleration in a superconducting continuous wave linac to drive low jitter x-ray free electron lasers

Bacci, A.; Conti, M. Rossetti; Bosotti, A.; Cialdi, S.; Mitri, S. Di; Drebot, I.; Faillace, L.; Ghiringhelli, G.; Michelato, P.; Monaco, Laura; Opromolla, Michele; Paparella, Rocco; Petrillo, V.; Placidi, M.; Puppin, E.; Rossi, A. R.; Rossi, G.; Sertore, D.; Serafini, L.

doi:10.1103/physrevaccelbeams.22.111304

Cited by 13 publications

(6 citation statements)

References 40 publications

(48 reference statements)

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“…The electron beam is supposed to be generated by an accelerator similar to the project MariX's (Multidisciplinary Advanced Research Infrastructure for the generation and application of X-rays) [34,35], whose compact footprint with a total length of about 500 m and contained costs should permit its construction also in medium-size research infrastructures or within university campuses. MariX is based on the innovative design of a two-pass two-way Super-Conducting linear electron accelerator [35], equipped with an arc compressor [36,37] to be operated in CW mode at 1 MHz. The characteristics of the electron beam are listed in Table I.…”

Section: Lay-out Of the Coherent Source And Simulationsmentioning

confidence: 99%

High repetition rate and coherent Free-Electron Laser in the tender X-rays based on the Echo-Enabled Harmonic Generation of an Ultra-Violet Oscillator pulse

Mirian,

Opromolla,

Rossi

et al. 2021

Preprint

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Fine time-resolved analysis of matter -i.e. spectroscopy and photon scattering -in the linear response regime requires a fs-scale pulsed, high repetition rate, fully coherent X-ray source. A seeded Free-Electron Laser (FEL) driven by a Super-Conducting Linac, generating 10 8 -10 10 coherent photons at 2-5 keV with about 0.5 MHz of repetition rate, can address this need. The seeding scheme proposed is the Echo-Enabled Harmonic Generation, alimented by a FEL Oscillator working at 13.6 nm with a cavity based on Mo-Si mirrors. The whole chain of the X-ray generation is here described by means of start-to-end simulations. Comparisons with the Self Amplified Spontaneus Emission and a fresh-bunch harmonic cascade performed with similar electron beams show the validity of this scheme.

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Section: Lay-out Of the Coherent Source And Simulationsmentioning

confidence: 99%

High repetition rate and coherent Free-Electron Laser in the tender X-rays based on the Echo-Enabled Harmonic Generation of an Ultra-Violet Oscillator pulse

Mirian,

Opromolla,

Rossi

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…MariX is based on the innovative design of a two-pass two-way superconducting linear electron accelerator, equipped with an arc compressor [25][26][27], to be operated in CW mode at 1 MHz. The characteristics of the electron beam are listed in Table 1 [28]. After the second passage through the Linac, the electron beam is matched to the undulator device.…”

Section: Fel Layout and Start-to-end Simulationsmentioning

confidence: 99%

High Repetition Rate and Coherent Free-Electron Laser in the X-Rays Range Tailored for Linear Spectroscopy

et al. 2019

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Fine time-resolved analysis of matter—i.e., spectroscopy and photon scattering—in the linear response regime requires fs-scale pulsed, high repetition rate, fully coherent X-ray sources. A seeded Free Electron Laser (FEL) driven by a Linac based on Super Conducting cavities, generating 10 8 – 10 10 coherent photons at 2–5 keV with 0.2–1 MHz of repetition rate, can address this need. Three different seeding schemes, reaching the X-ray range, are described hereafter. The first two are multi-stage cascades upshifting the radiation frequency by a factor of 10–30 starting from a seed represented by a coherent flash of extreme ultraviolet light. This radiation can be provided either by the High Harmonic Generation of an optical laser or by an FEL Oscillator operating at 12–14 nm. The third scheme is a regenerative amplifier working with X-ray mirrors. The whole chain of the X-ray generation is here described by means of start-to-end simulations.

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“…In this paper, we show that the electron beam produced by a super-conducting linac (as, for instance, the one described in [12]), driven in a sequence of two undulator modules of different periods, can generate two-color Terahertz radiation with wavelengths ranging from 100 µm to 2 µm. The two pulses of different wavelengths are synchronized, both MW-class and highly coherent.…”

Section: Introductionmentioning

confidence: 99%

Two-Color TeraHertz Radiation by a Multi-Pass FEL Oscillator

Opromolla

Petrillo

2021

Applied Sciences

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In this paper, we show that an electron beam produced by a super-conducting linac, driven in a sequence of two undulator modules of different periods, can generate two-color Terahertz radiation with wavelengths ranging from 100 μm to 2 μm. The generated pulses are synchronized, both MW-class, and highly coherent. Their specific properties and generation will be discussed in detail. Besides the single-spike pulse structure, usually observed in oscillators, we show that both the THz pump and probe can be modulated in a coherent comb of pulses, enabling periodic excitation and stroboscopic measurements.

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Two-pass two-way acceleration in a superconducting continuous wave linac to drive low jitter x-ray free electron lasers

Cited by 13 publications

References 40 publications

High repetition rate and coherent Free-Electron Laser in the tender X-rays based on the Echo-Enabled Harmonic Generation of an Ultra-Violet Oscillator pulse

High repetition rate and coherent Free-Electron Laser in the tender X-rays based on the Echo-Enabled Harmonic Generation of an Ultra-Violet Oscillator pulse

High Repetition Rate and Coherent Free-Electron Laser in the X-Rays Range Tailored for Linear Spectroscopy

Two-Color TeraHertz Radiation by a Multi-Pass FEL Oscillator

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