Author: Kovalev, S.
Paper Title Page
TUP004 A Superradiant THz Undulator Source for XFELs 48
  • T. Tanikawa, G. Geloni, S. Karabekyan, S. Serkez
    EuXFEL, Schenefeld, Germany
  • V.B. Asgekar
    University of Pune, Pune, India
  • S. Casalbuoni
    KIT, Eggenstein-Leopoldshafen, Germany
  • M. Gensch
    Technische Universität Berlin, Berlin, Germany
  • M. Gensch
    DLR, Berlin, Germany
  • S. Kovalev
    HZDR, Dresden, Germany
  The European XFEL has successfully achieved first lasing in 2017 and meanwhile three SASE FEL beamlines are in operation. An increasing number of users has great interest in a specific type of two-color pump-probe experiments in which high-field THz pulses are employed to drive nonlinear processes and dynamics in matter selectively. Here, we propose to use a 10-period superconducting THz undulator to provide intense, narrowband light pulses tunable in wide range between 3 and 100 THz. The exploitation of superconducting technology allows us to meet the challenge of generating such low photon energy radiation despite the very high electron beam energy at the European XFEL. In this presentation, we will present the latest development concerning THz undulator design and present the expected THz pulse properties for the case of the European XFEL.  
DOI • reference for this paper ※  
About • paper received ※ 20 August 2019       paper accepted ※ 27 August 2019       issue date ※ 05 November 2019  
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WEP081 Design and Development of High-Speed Data Acquisition System and Online Data Processing with a Heterogeneous FPGA/GPU Architecture 510
  • M. Bawatna, J.-C. Deinert, O. Knodel, S. Kovalev
    HZDR, Dresden, Germany
  • R.G. Spallek
    Technische Universität Dresden, Dresden, Germany
  The superradiant THz sources at TELBE facility is based on the new class of accelerator-driven terahertz (THz) radiation sources that provide high repetition rates up to 13 MHz, and flexibility of tuning the THz pulse form. The THz pulses are used for the excitation of materials of interest, about two orders of magnitude higher than state-of-the-art tabletop sources. Time-resolved experiments can be performed with a time resolution down to 30 femtoseconds (fs) using the novel pulse-resolved Data Acquisition (DAQ) system. However, the increasing demands in improving the flexibility, data throughput, and speed of the DAQ systems motivate the integration of reconfigurable processing units close to the new detectors to accelerate the processing of tens of GigaBytes of data per second. In this paper, we introduce our online ultrafast DAQ system that uses a GPU platform for real-time image processing, and a custom high-performance FPGA board for interfacing the image sensors and provide a continuous data transfer.  
poster icon Poster WEP081 [0.830 MB]  
DOI • reference for this paper ※  
About • paper received ※ 18 August 2019       paper accepted ※ 25 August 2019       issue date ※ 05 November 2019  
Export • reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)