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Retreat FOR2783

Europe/Berlin
VIRTUAL SPACE (VIA WEBEX)

VIRTUAL SPACE

VIA WEBEX
Carsten Müller (Uni Düsseldorf)
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Retreat FOR2783

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Retreat FOR2783
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  • Di., 27. April
    • Block: E1, T1, T2
      • 1
        Quantum Vacuum Simulation Algorithm and Code (QVSP)

        A numerical scheme for solving the nonlinear Heisenberg-Euler equation in up to 3 spatial dimensions plus time is derived and its properties are discussed. This "quantum vacuum simulation algorithm" is tested against a set of already known analytical results and its power to go beyond analytically solvable scenarios is shown.

        Sprecher: Baris Ölmez, Andreas Maximilian Lindner (LMU Munich)
        qvsp.pdf
      • 2
        Vacuum birefringence and diffraction at XFEL: from analytical estimates to optimal parameters

        We study vacuum birefringence and x-ray photon scattering in the head-on collision of x-ray free electron and high-intensity laser pulses. Resorting to analytical approximations for the numbers of attainable signal photons, we analyze the behavior of the phenomenon under the variation of various experimental key-parameters and provide new analytical scalings. Our optimized approximations allow for quantitatively accurate results on the one-percent level. We in particular demonstrate that an appropriate choice of the x-ray focus and pulse duration can significantly improve the signal for given laser parameters, using the experimental parameters to be available at the Helmholtz International Beamline for Extreme Fields at the European XFEL as example.

        Sprecher: Elena Mosman (Tomsk Polytechnic University)
        FOR Mosman.pdf
      • 3
        Numerical Simulation of Colliding Laser Pulses

        The nonlinear optical properties of colliding high field laser pulses in HE weak field approximation is investigated numerically. The numerical approach is detailed.

        Sprecher: Andreas Maximilian Lindner (LMU Munich), Baris Ölmez
        qvsp.pdf
    • Break: Coffee and discussions
    • Block: T1, T2, E2
      • 4
        Photon merging in the collision of two laser pulses

        Quantum vacuum nonlinearity allows for the effect of laser photon merging in the collision of two (or more) laser beams. As the merged photons origin from a manifestly inelastic process, their energy differs significantly from the background photons of the driving lasers, making them accessible for experiments. However, the number of merged photons is typically considered to be very small.
        In this talk, results on the emission characteristics of the merged signal photons will be presented, demonstrating that the availability of just two laser beams is sufficient to achieve a sizable signal in experiments with state-of-the-art technology.

        Sprecher: Chantal Sundqvist (FSU Jena)
        FOR_Merging.pdf
      • 5
        Experiments at the JETI laser

        First strong field experiments at the JETI super laser in Jena are reported.

        Sprecher: Herr Pooyan Khademi
      • 6
        First measurement of background signals

        In August 2020, a first experimental campaign was conducted to investigate light scattered from a single laser focus in vacuum. Any photons measured constitute an undesired background signal for an actual multi-beam collision experiment. Key findings will be presented and possible improvements as well as the expected scaling towards higher power collision experiments will be discussed.

        Sprecher: Herr Leonard Doyle (LMU)
        20210427_E2_FirstBeamtimeResults_toUpload.pdf
    • Break: Coffee and discussions
    • Discussions
  • Mi., 28. April
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