P. Michel scite author profile

Ultrashort flashes of THz light with low photon energies of a few meV, but strong electric or magnetic field transients have recently been employed to prepare various fascinating nonequilibrium states in matter. Here we present a new class of sources based on superradiant enhancement of radiation from relativistic electron bunches in a compact electron accelerator that we believe will revolutionize experiments in this field. Our prototype source generates high-field THz pulses at unprecedented quasi-continuous-wave repetition rates up to the MHz regime. We demonstrate parameters that exceed state-of-the-art laser-based sources by more than 2 orders of magnitude. The peak fields and the repetition rates are highly scalable and once fully operational this type of sources will routinely provide 1 MV/cm electric fields and 0.3 T magnetic fields at repetition rates of few 100 kHz. We benchmark the unique properties by performing a resonant coherent THz control experiment with few 10 fs resolution.

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Strangeness production in the reaction pp→K+Λp in the threshold region

Bilger

Böhm

Brand

et al. 1998

Physics Letters B

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The Rossendorf radiation source ELBE and its FEL projects

Gabriel

Gippner

Grosse

et al. 2000

Nuclear Instruments and Methods in Physics Research Section B:

100

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Making spectral shape measurements in inverse Compton scattering a tool for advanced diagnostic applications

Krämer

Jochmann

Budde³

et al. 2018

Sci Rep

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Interaction of relativistic electron beams with high power lasers can both serve as a secondary light source and as a novel diagnostic tool for various beam parameters. For both applications, it is important to understand the dynamics of the inverse Compton scattering mechanism and the dependence of the scattered light’s spectral properties on the interacting laser and electron beam parameters. Measurements are easily misinterpreted due to the complex interplay of the interaction parameters. Here we report the potential of inverse Compton scattering as an advanced diagnostic tool by investigating two of the most influential interaction parameters, namely the laser intensity and the electron beam emittance. Established scaling laws for the spectral bandwidth and redshift of the mean scattered photon energy are refined. This allows for a quantitatively well matching prediction of the spectral shape. Driving the interaction to a nonlinear regime, we spectrally resolve the rise of higher harmonic radiation with increasing laser intensity. Unprecedented agreement with 3D radiation simulations is found, showing the good control and characterization of the interaction. The findings advance the interpretation of inverse Compton scattering measurements into a diagnostic tool for electron beams from laser plasma acceleration.

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Production of ω mesons in proton–proton collisions

et al. 2001

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The cross section for the production of ω mesons in proton-proton collisions has been measured in a previously unexplored region of incident energies. Cross sections of σ = (7.5 ± 1.9) µb and σ = (30.8 ± 3.4) µb (with 20% systematic uncertainties) were extracted at ǫ = 92 MeV and 173 MeV excess energy above the ω threshold, respectively. The angular distribution of the ω at ǫ = 173 MeV is strongly anisotropic,

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P. Michel

High-Field High-Repetition-Rate Sources for the Coherent THz Control of Matter

Strangeness production in the reaction pp→K+Λp in the threshold region

The Rossendorf radiation source ELBE and its FEL projects

Making spectral shape measurements in inverse Compton scattering a tool for advanced diagnostic applications

Production of ω mesons in proton–proton collisions

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