Your search keyword '"Pedrozzi, Marco"' showing total 3 results

1. Application of a PWFA to an X-ray FEL

Author

Israeli, Yasmine, Vieira, Jorge, Reiche, Sven, Pedrozzi, Marco, and Muggli, Patric

Subjects

Accelerator Physics (physics.acc-ph), Physics::Accelerator Physics, FOS: Physical sciences, Physics - Accelerator Physics

Abstract

There is a growing demand for X-ray Free-electron lasers (FELs) in various science fields, in particular for those with short pulses, larger photon fluxes and shorter wavelengths. The level of X-ray power and the pulse energy depend on the amount of electron bunch energy. Increasing the latter will increase the power of the radiating X-rays. Using numerical simulations we explore the possibility of using a plasma wakefield accelerator (PWFA) scheme to increase the electron beam energy of an existing FEL facility without significantly increasing the accelerator length. In this paper we use parameters of the SwissFEL beam. The simulations are carried out in 2D cylindrical symmetry using the code OSIRIS. Initial results show an energy gain of ~2 GeV after propagation of 0.5 m in the plasma with a relative energy spread of ~1%., Comment: 3 pages, 3 figures, 2nd European Advanced Accelerator Concepts Workshop

Published

2016

2. X-band TDS project

Author

Marchetti, Barbara, Aßmann, Ralph, Beutner, Bolko, Bopp, Markus, Branlard, Julien, Braun, Hans-Heinrich, Catalán Lasheras, Nuria, Christie, Florian, Craievich, Paolo, D'Arcy, Richard, Decking, Winfried, Dorda, Ulrich, Grudiev, Alexej, Herrmann, Joerg, Hoffmann, Matthias, Hüning, Markus, Krebs, Olaf, Kube, Gero, Lederer, Sven, Ludwig, Frank, Marutzky, Frank, Marx, Daniel, McMonagle, Gerard, Osterhoff, Jens, Pedrozzi, Marco, Peperkorn, Ingo, Pfeiffer, Sven, Poblotzki, Frauke, Prat, Eduard, Reiche, Sven, Rönsch-Schulenburg, Juliane, Rolli, Kilian, Rothenburg, Jens, Schlarb, Holger, Scholz, Matthias, Schreiber, Siegfried, Vogt, Mathias, Wagner, Antonio De Zubiaurre, Wilksen, Tim, Wittenburg, Kay, Wuensch, Walter, and Zennaro, Riccardo

Subjects

Physics::Accelerator Physics, 06 Beam Instrumentation, Controls, Feedback and Operational Aspects, Accelerators and Storage Rings, Accelerator Physics

Abstract

8th International Particle Accelerator Conference, IPAC17, Copenhagen, Denmark, 15 May 2017 - 19 May 2017 ; Geneva : JACoW, 184-187(2017). doi:10.18429/JACoW-IPAC2017-MOPAB044, Based on the success of the X-Band Transverse Deflecting Structure (TDS) diagnostic at LCLS*, a collaboration between DESY, PSI and CERN has formed with the aim of developing and building an advanced modular X-Band TDS system. The designed TDS has the new feature of providing variable polarization of the deflecting field**. The possibility of changing the orientation of the streaking field of the TDS to an arbitrary azimuthal angle allows for 3D characterization of the phase space using tomographic methods***. Moreover the complete 6D characterization of the beam phase space is possible by combining this technique with quadrupole scans and a dipole spectrometer. As this new cavity design requires very high manufacturing precision to guarantee highest azimuthal symmetry of the structure to avoid the deterioration of the polarization of the streaking field, the high precision tuning-free assembly procedures developed at PSI for the SwissFEL C-band accelerating structures will be used for the manufacturing****. The high-power rf system is based on the CERN-based X-band test stands. We summarize in this work the status of the projects and its main technical parameters., Published by JACoW, Geneva

3. Timing jitter studies of the SwissFEL Test Injector drive laser

Author

Divall, Marta Csatari, Kaiser, Maik, Hunziker, Stephan, Vicario, Carlo, Beutner, Bolko, Schietinger, Thomas, Luethi, Matthias, Pedrozzi, Marco, and Hauri, Christoph P.

Subjects

Photo-injector laser, X-ray FEL, Ultrashort electron bunches, Laser arrival monitor, Tinting jitter

Abstract

To produce short X-ray pulses for SwissFEL(1), it is necessary to compress the electron bunches by a factor of 300, down to sub-fs for the attosecond operational modes. To achieve stable EEL output accurate timing of the initial electron injection at the main linear accelerator is necessary. Tolerance studies show, that to reach the final performance goals, less than 40 fs relative rms jitter is required from the electron gun, relative to the reference. Here we present independent residual RF phase noise measurements of the laser oscillators, showing an exceptional similar to 30 fs integrated rms jitter. Moreover timing studies at the SwissFEL Injector Test Facility, based on charge detection at the sharp rising edge of the Schottky-scan were performed allowing for systematic correlation studies and showing a residual jitter of similar to 150 fs at 10 Hz from the pulsed laser system and beam transport respect to the reference. For future development, available relative jitter measurement techniques for pulsed laser systems will be reviewed and their applicability for laser arrival time monitoring and feedback for EEL applications will be discussed. (C) 2013 Published by Elsevier B.V.