Your search keyword '"Craievich P"' showing total 18 results

1. Beam-based commissioning of a novel X-band transverse deflection structure with variable polarization

Author

P. González Caminal, F. Christie, R. D’Arcy, S. M. Jaster-Merz, R. Assmann, F. Burkart, B. Conrad, H. Dinter, M. Foese, J. Herrmann, M. Hoffmann, M. Hüning, R. Jonas, O. Krebs, S. Lederer, B. Marchetti, D. Marx, J. Mueller, J. Osterhoff, I. Peperkorn, M. Reukauff, H. Schlarb, S. Schreiber, G. Tews, T. Vinatier, M. Vogt, A. de Z. Wagner, S. Wesch, P. Craievich, M. Bopp, H.-H. Braun, A. Citterio, R. Fortunati, R. Ganter, T. Kleeb, F. Marcellini, M. Pedrozzi, E. Prat, S. Reiche, K. Rolli, R. Sieber, A. Grudiev, W. L. Millar, N. Catalan-Lasheras, G. McMonagle, S. Pitman, V. del Pozo Romano, K. T. Szypula, and W. Wuensch

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Longitudinal electron-beam diagnostics play a critical role in the operation and control of x-ray free-electron lasers, which rely on parameters such as the current profile, the longitudinal phase space, or the slice emittance of the particle distribution. On the one hand, the femtosecond-scale electron bunches produced at these facilities impose stringent requirements on the resolution achievable with the diagnostics. On the other, research and development of novel accelerator technologies such as beam-driven plasma-wakefield accelerators (PWFA) demand unprecedented capabilities to resolve the centroid offsets in the full transverse plane along the longitudinal bunch coordinate. We present the beam-based commissioning of an advanced X-band transverse-deflection rf structure (TDS) system with the new feature of providing variable polarization of the deflecting force: the PolariX-TDS. By means of a comprehensive campaign of measurements conducted with the prototype, key parameters of the rf performance of the system are validated and a phase-space characterization of an electron bunch is accomplished with a time resolution of 3.3 fs. Furthermore, an analysis of second-order effects induced on the bunch from its passage through the PolariX-TDS is presented.

Published

2024

2. Experimental characterization of the optical klystron effect to measure the intrinsic energy spread of high-brightness electron beams

Author

Eduard Prat, Christoph Kittel, Marco Calvi, Paolo Craievich, Philipp Dijkstal, Sven Reiche, Thomas Schietinger, and Guanglei Wang

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The intrinsic energy spread of electron beams needs to be measured to characterize and optimize high-brightness electron beam sources such as those driving x-ray free-electron lasers (FELs). We demonstrate the use of the optical klystron effect as a precise and high-resolution method to measure the electron beam energy spread. The optical klystron setup consists of undulator modules and magnetic chicanes placed between them. The energy spread is found by measuring the radiation power produced in the undulators as a function of the chicanes’ strengths. High resolution and simplicity are the advantages of this approach, in contrast to the standard method, which measures the longitudinal phase space of the electron beam with a transverse deflector. The demonstration was performed at Athos, the soft x-ray FEL beamline of SwissFEL, for which we measured energy spreads below 1 MeV at a central beam energy of 3.4 GeV. We have verified the consistency of the method for different parameters (radiation wavelengths, undulator polarization configurations, and electron bunch durations) and we have benchmarked it against the standard measurement approach using a transverse deflector. Our results confirm the optical klystron as a valid approach to measure the electron beam energy spread. The method can be especially useful to reconstruct low energy spread values, where the conventional approach may be resolution limited, such as in ultra high-brightness radiofrequency photoinjectors or plasma sources, or when transverse deflectors are not available.

Published

2024

3. Proof-of-principle e^{+} source for future colliders

Author

N. Vallis, P. Craievich, M. Schär, R. Zennaro, B. Auchmann, H. H. Braun, M. I. Besana, M. Duda, R. Fortunati, H. Garcia-Rodrigues, D. Hauenstein, R. Ischebeck, E. Ismaili, P. Juranić, J. Kosse, A. Magazinik, F. Marcellini, T. Michlmayr, S. Müller, M. Pedrozzi, R. Rotundo, G. L. Orlandi, M. Seidel, N. Strohmaier, and M. Zykova

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The PSI Positron Production (P^{3} or P-cubed) experiment is a e^{+} source and capture system with the potential to increase by an order of magnitude the state-of-the-art e^{+} yield normalized to the drive linac energy, a highly desirable goal for future colliders. The experiment is framed in the FCC-ee injector study and will be hosted at SwissFEL, located at the Paul Scherrer Institute in Switzerland. This paper presents the P^{3} project at an advanced stage, with an emphasis on a capture system featuring a novel e^{+} matching device based on high-temperature superconducting solenoids, followed by two large aperture rf cavities surrounded by normal-conducting solenoids. The diagnostics design is also introduced, including monitors of charge, energy spectrum, and bunch-by-bunch longitudinal profile simultaneously for secondary e^{+} and e^{-}. The last chapter of the text overviews the currently ongoing installation at SwissFEL, including the beam transfer line, rf network, radiation protection, and other relevant activities toward the operation with e^{+} in the coming years.

Published

2024

4. Toward a brightness upgrade to the SwissFEL: A high gradient traveling-wave rf photogun

Author

Thomas Geoffrey Lucas, Hans-Heinrich Braun, Paolo Craievich, Reto Fortunati, Natalia Kirchgeorg, Anastasiya Magazinik, Marco Pedrozzi, Jean-Yves Raguin, Sven Reiche, Mattia Schaer, Mike Seidel, Riccardo Zennaro, David Alesini, and Anna Giribono

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The first generation of S-band injectors for free-electron lasers has illustrated high reliability and performance by driving the latest generation of high brightness machines. However, the ultimate electron beam brightness of these devices is limited by the electric field that they can achieve on the cathode. With the aim of a higher beam brightness at SwissFEL, this paper presents the design of a C-band traveling-wave (TW) radio-frequency photogun that aims to offer the possibility to move to a cathode gradient up to 200 MV/m. This increased gradient comes from the ability to operate with rf pulse lengths approximately an order of magnitude shorter than the current state-of-the-art room-temperature S-band standing-wave rf photoguns. With this high cathode gradient, this novel gun is able to produce an electron bunch whose 5D beam brightness is 5 times greater than the current SwissFEL photogun. Furthermore, the low power dissipation within the photogun, resulting from the short rf pulse length and TW philosophy, opens up the opportunity for rf pulse repetition rates up to 1 kHz.

Published

2023

5. Proof-of-principle e+ source for future colliders

Author

Vallis, N., primary, Craievich, P., additional, Schär, M., additional, Zennaro, R., additional, Auchmann, B., additional, Braun, H. H., additional, Besana, M. I., additional, Duda, M., additional, Fortunati, R., additional, Garcia-Rodrigues, H., additional, Hauenstein, D., additional, Ischebeck, R., additional, Ismaili, E., additional, Juranić, P., additional, Kosse, J., additional, Magazinik, A., additional, Marcellini, F., additional, Michlmayr, T., additional, Müller, S., additional, Pedrozzi, M., additional, Rotundo, R., additional, Orlandi, G. L., additional, Seidel, M., additional, Strohmaier, N., additional, and Zykova, M., additional

Published

2024

6. SwissFEL double bunch operation

Author

Martin Paraliev, Arturo Alarcon, Vladimir Arsov, Simona Bettoni, Roger Biffiger, Marco Boll, Hans Braun, Alessandro Citterio, Paolo Craievich, Andreas Josef Dax, Philipp Dijkstal, Sladana Dordevic, Eugenio Ferrari, Franziska Frei, Romain Ganter, Zheqiao Geng, Christopher Gough, Nicole Hiller, Martin Huppert, Rasmus Ischebeck, Pavle Juranic, Mario Jurcevic, Babak Kalantari, Roger Kalt, Boris Keil, Christoph Kittel, Waldemar Koprek, Daniel Llorente, Florian Löhl, Alexander Malyzhenkov, Fabio Marcellini, Goran Marinkovic, Gian Luca Orlandi, Cigdem Ozkan Loch, Marco Pedrozzi, Eduard Prat, Sven Reiche, Colette Rosenberg, Thomas Schietinger, Serguei Sidorov, Alexandre Trisorio, Carlo Vicario, Didier Voulot, Guanglei Wang, and Riccardo Zennaro

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

SwissFEL has a unique capability, among the normal conducting linac-based light sources, to simultaneously serve two separate undulator lines (Aramis and Athos) up to the machine repetition rate of 100 Hz using the double bunch operation mode. It increases twice the experiments throughput of the facility with modest additional investment. Two electron bunches spaced 28 ns apart are extracted from the cathode by two laser pulses with individually controlled repetition rates. The bunches are accelerated up to about 3 GeV in the main linac using the same rf macropulse. After separation, one bunch serves the Athos soft x-ray beamline and the other is further accelerated to serve the hard x-ray beamline – Aramis. A fast and high-stability beam kicker separates the two bunches without disturbing the electron beam and consequently the x-ray lasing. The timing and control system sets hybrid machine modes utilizing independent operation of the two undulator lines with individually programmed repetition rates. Beam diagnostics and feedback systems have to operate with two closely spaced bunches where the two beams share the same machine path. The low-level rf system manipulates the rf amplitude and phase within a fraction of the rf macropulse to provide decoupling of the acceleration parameters of the first and the second bunch. This manuscript presents measurements that show that the bunch separation does not degrade FEL lasing stability.

Published

2022

7. Energy spread blowup by intrabeam scattering and microbunching at the SwissFEL injector

Author

Eduard Prat, Paolo Craievich, Philipp Dijkstal, Simone Di Mitri, Eugenio Ferrari, Thomas G. Lucas, Alexander Malyzhenkov, Giovanni Perosa, Sven Reiche, and Thomas Schietinger

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

We present high-resolution measurements of the electron beam energy spread at the SwissFEL injector as a function of the electron bunch charge, the optics, and the longitudinal dispersion of the lattice. The measured values are in general an order of magnitude higher than what is predicted by standard simulation codes. The measured dependences indicate that the energy spread blowup is caused primarily by intrabeam scattering and microbunching instabilities, effects not covered in the conventional modeling of radio-frequency injectors. We present further a numerical model that qualitatively reproduces the experimental data and an approach to mitigate the energy spread deterioration. The work underlines the importance of considering the energy spread in the optimization and design of high-brightness electron beam sources and the need to develop new models to adequately understand and simulate the observed physics effects.

Published

2022

8. Experimental demonstration of two-color x-ray free-electron-laser pulses via wakefield excitation

Author

S. Bettoni, P. Craievich, A. Dax, R. Ganter, M. W. Guetg, M. Huppert, F. Marcellini, R. Neto Pestana, S. Reiche, E. Prat, A. Trisorio, C. Vicario, and A. A. Lutman

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Several beam manipulation methods have been studied and experimentally demonstrated to generate x-ray multipulses in free-electron-laser (FEL) facilities, advancing the fields of material science, molecular physics, and photochemistry by enabling x-ray pump/x-ray probe experiments. We have demonstrated a novel method to generate hard x-ray multipulses using a hybrid compression scheme. Compared to other methods, this approach minimizes the time jitter among the FEL subpulses, produces large power FEL subpulses, is suitable for high repetition rate machines, since it does not imply the generation of losses, and it works at short and hard x-ray FEL wavelengths as well. All of these aspects make this approach attractive for the novel FEL facilities aiming to explore the hard x-ray region and to work at high repetition rate.

Published

2021

9. Novel X-band transverse deflection structure with variable polarization

Author

P. Craievich, M. Bopp, H.-H. Braun, A. Citterio, R. Fortunati, R. Ganter, T. Kleeb, F. Marcellini, M. Pedrozzi, E. Prat, S. Reiche, K. Rolli, R. Sieber, A. Grudiev, W. L. Millar, N. Catalan-Lasheras, G. McMonagle, S. Pitman, V. del Pozo Romano, K. T. Szypula, W. Wuensch, B. Marchetti, R. Assmann, F. Christie, B. Conrad, R. D’Arcy, M. Foese, P. Gonzalez Caminal, M. Hoffmann, M. Huening, R. Jonas, O. Krebs, S. Lederer, D. Marx, J. Osterhoff, M. Reukauff, H. Schlarb, S. Schreiber, G. Tews, M. Vogt, A. de Z. Wagner, and S. Wesch

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

A collaboration between DESY, PSI and CERN has developed and built an advanced modular X-band transverse deflection structure (TDS) system with the new feature of providing variable polarization of the deflecting force. The prototype of the novel X-band TDS, the polarizable X-band (PolariX) TDS, was fabricated at PSI following the high-precision tuning-free production process developed for the C-band Linac of the SwissFEL project. Bead-pull rf measurements were also performed at PSI to verify, in particular, that the polarization of the dipole fields does not have any rotation along the structure. The high-power test was performed at CERN and now the TDS is at DESY and has been installed in the FLASHForward beamline, where the first streaking experience with beam has been accomplished. We summarize in this paper the rf design of the TDS and its key components, such as the X-band pulse compressor, E-rotator, and phase shifter, the results of the bead-pull measurements and the high power test and finally the rf setup at DESY.

Published

2020

10. Low energy dark current collimation system in single-pass linacs

Author

S. Bettoni, P. Craievich, M. Pedrozzi, M. Schaer, and L. Stingelin

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The dark current emitted from a surface of a radio frequency cavity may be a severe issue for the activation and the protection of the components of linear accelerators, if this current is lost in an uncontrolled manner. For a single-pass linac based on a photo-injector, we studied the possibility of using a collimator installed at low energy (below 10 MeV) to dump the maximum fraction of the dark current before it is transported along the linac. We developed and experimentally verified an emission and tracking model that we used to study and optimize the dark current mitigation at SwissFEL test facility. We optimized a collimator, which is expected to reduce by two orders of magnitude the transport of the dark current to the first compressor. We have also verified the effects of wakefield excited by the beam itself passing through the collimator at such a low energy, comparing the results of beam-based measurements with an analytical model.

Published

2018

11. Experimental demonstration of two-color x-ray free-electron-laser pulses via wakefield excitation

Author

Bettoni, S., primary, Craievich, P., additional, Dax, A., additional, Ganter, R., additional, Guetg, M. W., additional, Huppert, M., additional, Marcellini, F., additional, Neto Pestana, R., additional, Reiche, S., additional, Prat, E., additional, Trisorio, A., additional, Vicario, C., additional, and Lutman, A. A., additional

Published

2021

12. Commissioning experience and beam physics measurements at the SwissFEL Injector Test Facility

Author

T. Schietinger, M. Pedrozzi, M. Aiba, V. Arsov, S. Bettoni, B. Beutner, M. Calvi, P. Craievich, M. Dehler, F. Frei, R. Ganter, C. P. Hauri, R. Ischebeck, Y. Ivanisenko, M. Janousch, M. Kaiser, B. Keil, F. Löhl, G. L. Orlandi, C. Ozkan Loch, P. Peier, E. Prat, J.-Y. Raguin, S. Reiche, T. Schilcher, P. Wiegand, E. Zimoch, D. Anicic, D. Armstrong, M. Baldinger, R. Baldinger, A. Bertrand, K. Bitterli, M. Bopp, H. Brands, H. H. Braun, M. Brönnimann, I. Brunnenkant, P. Chevtsov, J. Chrin, A. Citterio, M. Csatari Divall, M. Dach, A. Dax, R. Ditter, E. Divall, A. Falone, H. Fitze, C. Geiselhart, M. W. Guetg, F. Hämmerli, A. Hauff, M. Heiniger, C. Higgs, W. Hugentobler, S. Hunziker, G. Janser, B. Kalantari, R. Kalt, Y. Kim, W. Koprek, T. Korhonen, R. Krempaska, M. Laznovsky, S. Lehner, F. Le Pimpec, T. Lippuner, H. Lutz, S. Mair, F. Marcellini, G. Marinkovic, R. Menzel, N. Milas, T. Pal, P. Pollet, W. Portmann, A. Rezaeizadeh, S. Ritt, M. Rohrer, M. Schär, L. Schebacher, St. Scherrer, V. Schlott, T. Schmidt, L. Schulz, B. Smit, M. Stadler, B. Steffen, L. Stingelin, W. Sturzenegger, D. M. Treyer, A. Trisorio, W. Tron, C. Vicario, R. Zennaro, and D. Zimoch

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The SwissFEL Injector Test Facility operated at the Paul Scherrer Institute between 2010 and 2014, serving as a pilot plant and test bed for the development and realization of SwissFEL, the x-ray Free-Electron Laser facility under construction at the same institute. The test facility consisted of a laser-driven rf electron gun followed by an S-band booster linac, a magnetic bunch compression chicane and a diagnostic section including a transverse deflecting rf cavity. It delivered electron bunches of up to 200 pC charge and up to 250 MeV beam energy at a repetition rate of 10 Hz. The measurements performed at the test facility not only demonstrated the beam parameters required to drive the first stage of an FEL facility, but also led to significant advances in instrumentation technologies, beam characterization methods and the generation, transport and compression of ultralow-emittance beams. We give a comprehensive overview of the commissioning experience of the principal subsystems and the beam physics measurements performed during the operation of the test facility, including the results of the test of an in-vacuum undulator prototype generating radiation in the vacuum ultraviolet and optical range.

Published

2016

13. rf traveling-wave electron gun for photoinjectors

Author

Mattia Schaer, Alessandro Citterio, Paolo Craievich, Sven Reiche, Lukas Stingelin, and Riccardo Zennaro

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The design of a photoinjector, in particular that of the electron source, is of central importance for free electron laser (FEL) machines where a high beam brightness is required. In comparison to standard designs, an rf traveling-wave photocathode gun can provide a more rigid beam with a higher brightness and a shorter pulse. This is illustrated by applying a specific optimization procedure to the SwissFEL photoinjector, for which a brightness improvement up to a factor 3 could be achieved together with a double gun output energy compared to the reference setup foreseeing a state-of-the-art S-band rf standing-wave gun. The higher brightness is mainly given by a (at least) double peak current at the exit of the gun which brings benefits for both the beam dynamics in the linac and the efficiency of the FEL process. The gun design foresees an innovative coaxial rf coupling at both ends of the structure which allows a solenoid with integrated bucking coil to be placed around the cathode in order to provide the necessary focusing right after emission.

Published

2016

14. Temporal profile measurements of relativistic electron bunch based on wakefield generation

Author

S. Bettoni, P. Craievich, A. A. Lutman, and M. Pedrozzi

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

A complete characterization of the time-resolved longitudinal beam phase space is important to optimize the final performances of an accelerator, and in particular this is crucial for Free Electron Laser (FEL) facilities. In this paper we propose a novel method to characterize the profile of a relativistic electron bunch by passively streaking the beam using its self-interaction with the transverse wakefield excited by the bunch itself passing off-axis through a dielectric-lined or a corrugated waveguide. Results of a proof-of-principle experiment at the SwissFEL Injector Test Facility are discussed.

Published

2016

15. Novel X -band transverse deflection structure with variable polarization

Author

Craievich, P., primary, Bopp, M., additional, Braun, H.-H., additional, Citterio, A., additional, Fortunati, R., additional, Ganter, R., additional, Kleeb, T., additional, Marcellini, F., additional, Pedrozzi, M., additional, Prat, E., additional, Reiche, S., additional, Rolli, K., additional, Sieber, R., additional, Grudiev, A., additional, Millar, W. L., additional, Catalan-Lasheras, N., additional, McMonagle, G., additional, Pitman, S., additional, Romano, V. del Pozo, additional, Szypula, K. T., additional, Wuensch, W., additional, Marchetti, B., additional, Assmann, R., additional, Christie, F., additional, Conrad, B., additional, D’Arcy, R., additional, Foese, M., additional, Caminal, P. Gonzalez, additional, Hoffmann, M., additional, Huening, M., additional, Jonas, R., additional, Krebs, O., additional, Lederer, S., additional, Marx, D., additional, Osterhoff, J., additional, Reukauff, M., additional, Schlarb, H., additional, Schreiber, S., additional, Tews, G., additional, Vogt, M., additional, Wagner, A. de Z., additional, and Wesch, S., additional

Published

2020

16. Low energy dark current collimation system in single-pass linacs

Author

Bettoni, S., primary, Craievich, P., additional, Pedrozzi, M., additional, Schaer, M., additional, and Stingelin, L., additional

Published

2018

17. Commissioning experience and beam physics measurements at the SwissFEL Injector Test Facility

Author

Schietinger, T., primary, Pedrozzi, M., additional, Aiba, M., additional, Arsov, V., additional, Bettoni, S., additional, Beutner, B., additional, Calvi, M., additional, Craievich, P., additional, Dehler, M., additional, Frei, F., additional, Ganter, R., additional, Hauri, C. P., additional, Ischebeck, R., additional, Ivanisenko, Y., additional, Janousch, M., additional, Kaiser, M., additional, Keil, B., additional, Löhl, F., additional, Orlandi, G. L., additional, Ozkan Loch, C., additional, Peier, P., additional, Prat, E., additional, Raguin, J.-Y., additional, Reiche, S., additional, Schilcher, T., additional, Wiegand, P., additional, Zimoch, E., additional, Anicic, D., additional, Armstrong, D., additional, Baldinger, M., additional, Baldinger, R., additional, Bertrand, A., additional, Bitterli, K., additional, Bopp, M., additional, Brands, H., additional, Braun, H. H., additional, Brönnimann, M., additional, Brunnenkant, I., additional, Chevtsov, P., additional, Chrin, J., additional, Citterio, A., additional, Csatari Divall, M., additional, Dach, M., additional, Dax, A., additional, Ditter, R., additional, Divall, E., additional, Falone, A., additional, Fitze, H., additional, Geiselhart, C., additional, Guetg, M. W., additional, Hämmerli, F., additional, Hauff, A., additional, Heiniger, M., additional, Higgs, C., additional, Hugentobler, W., additional, Hunziker, S., additional, Janser, G., additional, Kalantari, B., additional, Kalt, R., additional, Kim, Y., additional, Koprek, W., additional, Korhonen, T., additional, Krempaska, R., additional, Laznovsky, M., additional, Lehner, S., additional, Le Pimpec, F., additional, Lippuner, T., additional, Lutz, H., additional, Mair, S., additional, Marcellini, F., additional, Marinkovic, G., additional, Menzel, R., additional, Milas, N., additional, Pal, T., additional, Pollet, P., additional, Portmann, W., additional, Rezaeizadeh, A., additional, Ritt, S., additional, Rohrer, M., additional, Schär, M., additional, Schebacher, L., additional, Scherrer, St., additional, Schlott, V., additional, Schmidt, T., additional, Schulz, L., additional, Smit, B., additional, Stadler, M., additional, Steffen, B., additional, Stingelin, L., additional, Sturzenegger, W., additional, Treyer, D. M., additional, Trisorio, A., additional, Tron, W., additional, Vicario, C., additional, Zennaro, R., additional, and Zimoch, D., additional

Published

2016

18. Temporal profile measurements of relativistic electron bunch based on wakefield generation

Author

Bettoni, S., primary, Craievich, P., additional, Lutman, A. A., additional, and Pedrozzi, M., additional

Published

2016