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1. Electro-optic sampling based characterization of broad-band high efficiency THz-FEL

   https://doi.org/10.1364/OE.467677  

   Lenz, M.; Fisher, A.; Ody, A.; Park, Y.; Musumeci, P. (August 2022, Optics Express)

   Extremely high beam-to-radiation energy conversion efficiencies can be obtained in a THz FEL using a strongly tapered helical undulator at the zero-slippage resonant condition, where a circular waveguide is used to match the radiation group velocity to the electron beam longitudinal velocity. In this paper we report on the first electro-optic sampling (EOS) based measurements of the broadband THz FEL radiation pulses emitted in this regime. The THz field waveforms are reconstructed in the spatial and temporal domains using multi-shot and single-shot EOS schemes respectively. The measurements are performed varying the input electron beam energy in the undulator providing insights on the complex dynamics in a waveguide FEL. 

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2. CAVITY-BASED FREE-ELECTRON LASER RESEARCH AND DEVELOPMENT: A JOINT ARGONNE NATIONAL LABORATORY AND SLAC NATIONAL LABORATORY COLLABORATION

   https://doi.org/10.18429/JACoW-FEL2019-TUD04  

   G. Marcus, F.-J. Decker (November 2019, 39th Free Electron Laser Conf./ FEL2019, Hamburg, Germany)

   One solution for producing longitudinally coherent FEL pulses is to store and recirculate the output of an amplifier in an X-ray cavity so that the X-ray pulse can interact with following fresh electron bunches over many passes. The X-ray FEL oscillator (XFELO) and the X-ray regenerative amplifier FEL (XRAFEL) concepts use this technique and rely on the same fundamental ingredients to realize their full capability. Both schemes require a high repetition rate electron beam, an undulator to provide FEL gain, and an X- ray cavity to recirculate and monochromatize the radiation. The shared infrastructure, complementary performance char- acteristics, and potentially transformative FEL properties of the XFELO and XRAFEL have brought together a joint Argonne National Laboratory (ANL) and SLAC National Laboratory (SLAC) collaboration aimed at enabling these schemes at LCLS-II. We present plans to install a rectangu- lar X-ray cavity in the LCLS-II undulator hall and perform experiments employing 2-bunch copper RF linac accelerated electron beams. This includes performing cavity ring-down measurements and 2-pass gain measurements for both the low-gain XFELO and the high-gain XRAFEL schemes. 

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3. Towards higher frequencies in a compact prebunched waveguide THz-FEL

   https://doi.org/10.1038/s41467-024-51892-8  

   Fisher, Andrew; Lenz, Maximilian; Ody, Alex; Yang, Yining; Pennington, Chad; Maxson, Jared; Hodgetts, Tara; Agustsson, Ronald; Murokh, Alex; Musumeci, Pietro (August 2024, Nature Communications)

   Abstract Free-electron-lasers fill a critical gap in the space of THz-sources as they can reach high average and peak powers with spectral tunability. Using a waveguide in a THz FEL significantly increases the coupling between the relativistic electrons and electromagnetic field enabling large amounts of radiation to be generated in a single passage of electrons through the undulator. In addition to transversely confining the radiation, the dispersive properties of the waveguide critically affect the velocity and slippage of the radiation pulse which determine the central frequency and bandwidth of the generated radiation. In this paper, we characterize the spectral properties of a compact waveguide THz FEL including simultaneous lasing at two different frequencies and demonstrating tuning of the radiation wavelength in the high frequency branch by varying the beam energy and ensuring that the electrons injected into the undulator are prebunched on the scale of the resonant radiation wavelength. 

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4. Amplification of elliptically polarized sub-femtosecond pulses in neon-like X-ray laser modulated by an IR field

   https://doi.org/10.1038/s41598-022-09701-z  

   Khairulin, I. R.; Antonov, V. A.; Ryabikin, M. Yu.; Berrill, M. A.; Shlyaptsev, V. N.; Rocca, J. J.; Kocharovskaya, Olga (April 2022, Scientific Reports)

   Abstract Amplification of attosecond pulses produced via high harmonic generation is a formidable problem since none of the amplifiers can support the corresponding PHz bandwidth. Producing the well defined polarization state common for a set of harmonics required for formation of the circularly/elliptically polarized attosecond pulses (which are on demand for dynamical imaging and coherent control of the spin flip processes) is another big challenge. In this work we show how both problems can be tackled simultaneously on the basis of the same platform, namely, the plasma-based X-ray amplifier whose resonant transition frequency is modulated by an infrared field. 

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5. Generation of attosecond pulses in “water window” range by a plasma-based X-ray laser

   https://doi.org/10.1088/1742-6596/1412/9/092012  

   Khairulin, I R; Antonov, V A; Kocharovskaya, O (January 2020, Journal of Physics: Conference Series)

   Synopsis We suggest a technique to generate a train of attosecond pulses in “water window” range by hydrogen-like C⁵⁺plasma-based X-ray laser with two sequentical active plasma channels irradiated by two different optical laser fields with orthogonal polarizations. We show also the possibility to transform the radiation of a plasma-based X-ray laser dressed by an optical laser field into a train of attosecond pulses in a resonant absorber irradiated by the different optical field. 

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