Your search keyword '"Reukauff, Matthias"' showing total 5 results

1. A low-noise front-end for an X-band particle deflector at DESY

Author

Jacob, Arne, Reukauff, Matthias, Jacob, Arne, and Reukauff, Matthias

Abstract

In dieser Arbeit wird ein low-level-RF (LLRF)-System für die neuartige polarisierbare transversal ablenkende Struktur PolariX TDS entwickelt, installiert und an der FLASHForward-Beamline bei DESY in Betrieb genommen. Die PolariX TDS arbeitet im X-Band bei 12 GHz und erfordert ein LLRF-System, das Signale in diesem Frequenzband messen und verarbeiten kann. Mit einem Ansatz zur Wiederverwendung des bereits existierenden S-Band LLRF-Systems, das Signale bei 3 GHz verarbeiten kann, wird neue Hardware entwickelt, die HF-Signale zwischen 12 GHz und 3 GHz umwandelt. Die zugrundeliegenden Komponenten dieser Konvertierungshardware sind HF-Mischer, Filter, Verstärker und Frequenzvervielfacher. Verschiedene Kandidaten für all diese Komponenten werden charakterisiert und hinsichtlich ihrer elektrischen Eigenschaften verglichen. Da die endgültige Systemleistung stark vom Phasenrauschen abhängt, wird das Hauptaugenmerk der Charakterisierung auf dieses gelegt. Mit den ausgewählten Komponenten werden Leiterplatten entworfen, simuliert, produziert und in hermetisch dichte Gehäuse verpackt, bevor sie in 19"-Module eingebaut werden. Nach der Fertigstellung werden die Module ebenfalls im Labor charakterisiert. Als letzter Schritt wird der Prototyp der PolariX TDS zusammen mit dem entwickelten LLRF-System in der FLASHForward-Beamline installiert. Nach erfolgreicher Inbetriebnahme werden erste Messungen im laufenden Beschleuniger durchgeführt. Zur Analyse des Kurzzeitverhaltens werden mögliche Verfahren zur Eliminierung der Langzeiteffekte durchgeführt. Die Aktorkette, bestehend aus LLRF-System, Klystron und dessen Vorverstärker, wird vermessen und charakterisiert. Die Ergebnisse zeigen eine gewisse Diskrepanz zwischen erwarteten und gemessenen Werten und es wird eine Analyse möglicher Quellen des Problems durchgeführt. Mit Hilfe von strahlbasierten Messungen wird eine Beziehung zwischen der HF und dem Strahl hinsichtlich Phasen- und Amplitudenrauschen untersucht. Dies zeigt eine gute Le, In this thesis, a low-level RF (LLRF) system for the novel polarizable transverse deflecting structure PolariX TDS is developed, installed, and commissioned at the FLASHForward beamline at DESY. The PolariX TDS operates in the X-band at 12 GHz and requires an LLRF system capable of measuring and processing signals in this frequency band. Using an approach to reuse the existing S-band LLRF system that can process signals at 3 GHz, new hardware is being developed that converts RF signals between 12 GHz and 3 GHz. The underlying components of this conversion hardware are RF mixers, filters, amplifiers, and frequency multipliers. Various candidates for all these components are characterized and compared in terms of their electrical characteristics. Since the final system performance depends heavily on the phase noise, the main focus of the characterization will be on this. With the components selected, printed circuit boards are designed, simulated, produced and packaged in hermetically sealed housings before being mounted in 19" modules. After completion, the modules are also characterized in the laboratory. As a final step, the prototype of the PolariX TDS will be installed in the FLASHForward beamline together with the developed LLRF system. After successful commissioning, first measurements will be performed in the running accelerator. To analyze the short-term behaviour, possible procedures to eliminate the long-term effects will be discussed. The actuator chain, consisting of LLRF system, klystron and its preamplifier, is measured and characterized. The results show some discrepancy between expected and measured values and an analysis of possible sources of the problem is performed. Beam-based measurements are used to analyze the relation between the RF and the beam in terms of phase and amplitude noise. These measurements show good performance of the overall system in terms of short term phase stability in general. However, small deviations from the expected beha

Published

2022

2. A low-noise front-end for an X-band particle deflector at DESY

Author

Reukauff, Matthias

Abstract

Dissertation, Technische Universität Hamburg, 2022; Hamburg : Verlag Deutsches Elektronen-Sychrotron DESY, DESY-THESIS 110 pp. (2022). = Dissertation, Technische Universität Hamburg, 2022, In this thesis, a low-level RF (LLRF) system for the novel polarizable transverse deflecting structure PolariX TDS is developed, installed, and commissioned at the FLASHForward beamline at DESY. The PolariX TDS operates in the X-band at 12 GHz and requires an LLRF system capable of measuring and processing signals in this frequency band. Using an approach to reuse the existing S-band LLRF system that can process signals at 3 GHz, new hardware is being developed that converts RF signals between 12 GHz and 3 GHz.The underlying components of this conversion hardware are RF mixers, filters, amplifiers, and frequency multipliers. Various candidates for all these components are characterized and compared in terms of their electrical characteristics. Since the final system performance depends heavily on the phase noise, the main focus of the characterization will be on this.With the components selected, printed circuit boards are designed, simulated, produced and packaged in hermetically sealed housings before being mounted in 19" modules. After completion, the modules are also characterized in the laboratory.As a final step, the prototype of the PolariX TDS will be installed in the FLASHForward beamline together with the developed LLRF system. After successful commissioning, first measurements will be performed in the running accelerator. To analyze the short-term behaviour, possible procedures to eliminate the long-term effects will be discussed.The actuator chain, consisting of LLRF system, klystron and its preamplifier, is measured and characterized. The results show some discrepancy between expected and measured values and an analysis of possible sources of the problem is performed.Beam-based measurements are used to analyze the relation between the RF and the beam in terms of phase and amplitude noise. These measurements show good performance of the overall system in terms of short term phase stability in general. However, small deviations from the expected behavior are seen, analyzed, and procedures to correct them are proposed. Analyses of the long-term behavior show a large difference between the RF and beam-based measurements, which causes are still subject of research.Although not as important as the phase noise, the amplitude noise is also investigated and similar to the long term behavior, the measured RF shows better performance than the beam based measurements., Published by Verlag Deutsches Elektronen-Sychrotron DESY, Hamburg

Published

2022

3. The PolariX TDS Project: bead pull measurements and high power test on the prototype

Author

Szypula, K. T., Wünsch, W., Marchetti, Barbara, Assmann, Ralph, Christie, Florian, D'Arcy, Richard, Dorda, Ulrich, Föse, Manon, Gonzalez Caminal, Pau, Hoffmann, Matthias, Hüning, Markus, Jonas, Rolf, Krebs, Olaf, Lederer, Sven, V, Libov, Marx, Daniel, Osterhoff, Jens, Reukauff, Matthias, Schlarb, Holger, Schreiber, Siegfried, Tews, Gerd, Vogt, Mathias, Wagner, Antonio De Zubiaurre, Craievich, P., Bopp, M., Braun, H., Citterio, A., Ganter, R., Marcellini, Fabio, Kleeb, T., Pedrozzi, M., Prat Costa, Eduard, Reiche, S., Grudiev, A., Lee Millar, W., Catalan-Lasheras, N., Mc Monagle, G., Pitman, S., and Del Pozo Romano, V.

Abstract

39th International Free-Electron Laser Conference, FEL19, Hamburg, Germany, 26 Aug 2019 - 30 Aug 2019; 0-3 (2019).

Published

2019

4. The PolariX-TDS Project: Bead-Pull Measurements and High-Power Test on the Prototype

Author

Craievich, Paolo, Aßmann, Ralph, Bopp, Markus, Braun, Hans-Heinrich, Catalán Lasheras, Nuria, Christie, Florian, Citterio, Alessandro, D'Arcy, Richard, Dorda, Ulrich, Foese, Manon, Ganter, Romain, Gonzalez Caminal, Pau, Grudiev, Alexej, Hoffmann, Matthias, Hüning, Markus, Jonas, Rolf, Kleeb, Thomas, Krebs, Olaf, Lederer, Sven, Libov, Vladyslav, Marcellini, Fabio, Marchetti, Barbara, Marx, Daniel, McMonagle, Gerard, Millar, William, Osterhoff, Jens, Pedrozzi, Marco, Pitman, Sam, Prat, Eduard, Reiche, Sven, Reukauff, Matthias, Schlarb, Holger, Schreiber, Siegfried, Szypula, Kamil, Tews, Gerd, Vogt, Mathias, Wagner, Antonio De Zubiaurre, Wuensch, Walter, and Del Pozo Romano, Veronica

Subjects

Physics::Optics, Physics::Accelerator Physics, Electron Diagnostics, Timing, Synchronization, and Controls, Accelerators and Storage Rings, Accelerator Physics

Abstract

39th International Free-Electron Laser Conference, FEL19, Hamburg, Germany, 26 Aug 2019 - 30 Aug 2019; JACoW Publishing, Geneva, Switzerland 396-399 (2019). doi:10.18429/JACOW-FEL2019-WEP036, A collaboration between DESY, PSI and CERN has been established to develop and build 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 FLASHForward, where the first streaking experience with beam will be accomplished. We summarize in this paper the status of the project, the results of the bead-pull measurements and the high power test., Published by JACoW Publishing, Geneva, Switzerland

Published

2019

5. Status of the Polarix-TDS Project

Author

Craievich, Paolo, Aßmann, Ralph, Bopp, Markus, Braun, Hans-Heinrich, Catalán Lasheras, Nuria, Christie, Florian, D'Arcy, Richard, Dorda, Ulrich, Foese, Manon, Ganter, Romain, González Caminal, Pau, Grudiev, Alexej, Hoffmann, Matthias, Hüning, Markus, Jonas, Rolf, Kleeb, Thomas, Krebs, Olaf, Lederer, Sven, Libov, Vladyslav, Marchetti, Barbara, Marx, Daniel, McMonagle, Gerard, Osterhoff, Jens, Pedrozzi, Marco, Poblotzki, Frauke, Prat, Eduard, Reiche, Sven, Reukauff, Matthias, Schlarb, Holger, Schreiber, Siegfried, Tews, Gerd, Vogt, Mathias, Wagner, Antonio De Zubiaurre, Wuensch, Walter, and Zennaro, Riccardo

Subjects

07 Accelerator Technology, Physics::Instrumentation and Detectors, T06 Room Temperature RF, Physics::Accelerator Physics, Accelerators and Storage Rings, Accelerator Physics

Abstract

9th International Particle Accelerator Conference, IPAC'18, Vancouver, Canada, 29 Apr 2018 - 4 May 2018; Geneva, Switzerland : JACoW Publishing 3808-3811 (2018). doi:10.18429/JACOW-IPAC2018-THPAL068, A collaboration between DESY, PSI and CERN has been established to develop and build an advanced modular X-band transverse deflection structure (TDS) system with the new feature of providing variable polarization of the deflecting force. This innovative CERN 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. Therefore, the high-precision tuning-free production process developed at PSI for the C-band and X-band accelerating structures will be used for the manufacturing. We summarize in this paper the status of the production of the prototype and the waveguide networks foreseen in the different facilities., Published by JACoW Publishing, Geneva, Switzerland

Published

2018