Your search keyword '"Aßmann, Ralph"' showing total 293 results

1. Self-calibration technique for characterization of integrated THz waveguides

Author

Kellermeier, Max, Lemery, Francois, Floettmann, Klaus, Hillert, Wolfgang, and Assmann, Ralph

Subjects

Physics - Accelerator Physics

Abstract

Emerging high-frequency accelerator technology in the terahertz regime is promising for the development of compact high-brightness accelerators and high resolution-power beam diagnostics. One resounding challenge when scaling to higher frequencies and to smaller structures is the proportional scaling of tolerances which can hinder the overall performance of the structure. Consequently, characterizing these structures is essential for nominal operation. Here, we present a novel and simple self-calibration technique to characterize the dispersion relation of integrated hollow THz-waveguides. The developed model is verified in simulation by extracting dispersion characteristics of a standard waveguide a priori known by theory. The extracted phase velocity does not deviate from the true value by more than $ 9 \times 10^{-5} ~\%$. In experiments the method demonstrates its ability to measure dispersion characteristics of non-standard waveguides embedded with their couplers with an accuracy below $ \approx 0.5~\% $ and precision of $ \approx 0.05~\% $. Equipped with dielectric lining the metallic waveguides act as slow wave structures, and the dispersion curves are compared without and with dielectric. A phase synchronous mode, suitable for transverse deflection, is found at $ 275~\text{GHz} $., Comment: to be submitted to $\textit{Physical Review Accelerators and Beams}$

Published

2021

2. A final focus system for injection into a laser plasma accelerator at the ARES linac

Author

Yamin, Sumera, Assmann, Ralph, Burkart, Florian, Pousa, Angel Ferren, Hillert, Wolfgang, Lemery, Francois, Marchetti, Barbara, and Panofski, Eva

Subjects

Physics - Accelerator Physics

Abstract

ARES (Accelerator Research Experiment at SINBAD) is a linear accelerator at the SINBAD (Short INnovative Bunches and Accelerators at DESY) facility at DESY. ARES was designed to combine reproducible beams from conventional RF-based accelerator technology with novel but still experimental acceleration techniques. It aims to produce high brightness ultra-short electron bunches in the range of sub fs to few fs, at a beam energy of 100-150 MeV, suitable for injection into novel acceleration experiments like Dielectric Laser Acceleration (DLA) and Laser driven Plasma Acceleration (LPA). This paper reports the conceptual design and simulations of a final focus system for injecting into a LPA experiment at ARES, including permanent magnetic quadrupoles (PMQ), sufficient longitudinal space for collinear laser and electron transport, space for required diagnostics and a LPA setup. Space-charge effects play a significant role and are included. Simulation results on the focusing of the ARES electron bunches into and their transport through the laser-driven plasma are presented. The effects of several errors have been simulated and are reported., Comment: 10 pages, 7 figures

Published

2021

3. Conceptual Design Report for the LUXE Experiment

Author

Abramowicz, Halina, Acosta, Uwe Hernandez, Altarelli, Massimo, Assmann, Ralph, Bai, Zhaoyu, Behnke, Ties, Benhammou, Yan, Blackburn, Thomas, Boogert, Stewart, Borysov, Oleksandr, Borysova, Maryna, Brinkmann, Reinhard, Bruschi, Marco, Burkart, Florian, Büßer, Karsten, Cavanagh, Niall, Davidi, Oz, Decking, Winfried, Dosselli, Umberto, Elkina, Nina, Fedotov, Alexander, Firlej, Miroslaw, Fiutowski, Tomasz, Fleck, Kyle, Gostkin, Mikhail, Grojean, Christophe, Hallford, John Andrew, Harsh, Harsh, Hartin, Anthony, Heinemann, Beate, Heinzl, Tom, Helary, Louis, Hoffmann, Marius, Huang, Shan, Huang, Xinhe, Idzik, Marek, Ilderton, Anton, Jacobs, Ruth Magdalena, Kaempfer, Burkhard, King, Ben, Lakhno, Hlib, Levanon, Assaf, Levy, Aharon, Levy, Itamar, List, Jenny, Lohmann, Wolfgang, Ma, Teng, Macleod, Alexander John, Malka, Victor, Meloni, Federico, Mironov, Arseny, Morandin, Mauro, Moron, Jakub, Negodin, Evgueni, Perez, Gilad, Pomerantz, Ishay, Poeschl, Roman, Prasad, Rajendra, Quere, Fabien, Ringwald, Andreas, Roedel, Christian, Rykovanov, Sergey, Salgado, Felipe, Santra, Arka, Sarri, Gianluca, Saevert, Alexander, Sbrizzi, Antonio, Schmitt, Stefan, Schramm, Ulrich, Schuwalow, Sergej, Seipt, Daniel, Shaimerdenova, Leila, Shchedrolosiev, Mykyta, Skakunov, Maksim, Soreq, Yotam, Streeter, Matthew, Swientek, Krzysztof, Hod, Noam Tal, Tang, Suo, Teter, Thomas, Thoden, Daniel, Titov, Alexander, Tolbanov, Oleg, Torgrimsson, Greger, Tyazhev, Anton, Wing, Matthew, Zanetti, Marco, Zarubin, Andrei, Zeil, Karl, Zepf, Matt, and Zhemchukov, Aleksey

Subjects

High Energy Physics - Experiment, High Energy Physics - Phenomenology, Quantum Physics

Abstract

This Conceptual Design Report describes LUXE (Laser Und XFEL Experiment), an experimental campaign that aims to combine the high-quality and high-energy electron beam of the European XFEL with a powerful laser to explore the uncharted terrain of quantum electrodynamics characterised by both high energy and high intensity. We will reach this hitherto inaccessible regime of quantum physics by analysing high-energy electron-photon and photon-photon interactions in the extreme environment provided by an intense laser focus. The physics background and its relevance are presented in the science case which in turn leads to, and justifies, the ensuing plan for all aspects of the experiment: Our choice of experimental parameters allows (i) effective field strengths to be probed at and beyond the Schwinger limit and (ii) a precision to be achieved that permits a detailed comparison of the measured data with calculations. In addition, the high photon flux predicted will enable a sensitive search for new physics beyond the Standard Model. The initial phase of the experiment will employ an existing 40 TW laser, whereas the second phase will utilise an upgraded laser power of 350 TW. All expectations regarding the performance of the experimental set-up as well as the expected physics results are based on detailed numerical simulations throughout.

Published

2021

4. Longitudinal phase space synthesis with tailored 3D-printable dielectric-lined waveguides

Author

Mayet, Frank, Assmann, Ralph, and Lemery, Francois

Subjects

Physics - Accelerator Physics

Abstract

Longitudinal phase space manipulation is a critical and necessary component for advanced acceleration concepts, radiation sources and improving performances of X-ray free electron lasers. Here we present a simple and versatile method to semi-arbitrarily shape the longitudinal phase space of a charged bunch by using wakefields generated in tailored dielectric-lined waveguides. We apply the concept in simulation and provide examples for radiation generation and bunch compression. We finally discuss the manufacturing capabilities of a modern 3D printer and investigate how printing limitations, as well as the shape of the input LPS affect the performance of the device.

Published

2020

5. 35 megawatt multicycle THz pulses from a homemade periodically poled macrocrystal

Author

Lemery, Francois, Vinatier, Thomas, Mayet, Frank, Aßmann, Ralph, Baynard, Elsa, Demailly, Julien, Dorda, Ulrich, Lucas, Bruno, Pandey, Alok-Kumar, and Pittman, Moana

Subjects

Physics - Accelerator Physics, Physics - Optics

Abstract

High-power multicycle THz radiation is highly sought after with applications in medicine, imaging, spectroscopy, characterization and manipulation of condensed matter, and could support the development of next-generation compact laser-based accelerators with applications in electron microscopy, ultrafast X-ray sources and sub-femtosecond longitudinal diagnostics. Multicycle THz-radiation can be generated by shooting an appropriate laser through a periodically poled nonlinear crystal, e.g. lithium niobate (PPLN). Unfortunately, the manufacturing processes of PPLNs require substantially strong electric fields $\mathcal{O}(10~kV/mm)$ across the crystal width to locally reverse the polarization domains; this limits the crystal apertures to below 1 cm. Damage threshold limitations of lithium niobate thereby limits the laser power which can be shone onto the crystal, which inherently limits the production of high-power THz pulses. Here we show that in the THz regime, a PPLN crystal can be mechanically constructed in-air by stacking lithium niobate wafers together with 180$^{\circ}$ rotations to each other. The relatively long (mm) wavelengths of the generated THz radiation compared to the small gaps ($\sim$10 $\mu$m) between wafers supports a near-ideal THz transmission between wafers. We demonstrate the concept using a Joule-class laser system with $\sim$50 mm diameter wafers and measure up to 1.3 mJ of THz radiation corresponding to a peak power of $\sim$35 MW, a 50 times increase in THz power compared to previous demonstrations. Our results indicate that high-power THz radiation can be produced with existing and future high-power lasers in a scalable way, setting a course toward multi-gigawatt THz pulses. Moreover the simplicity of the scheme provides a simple way to synthesize waveforms for a variety of applications.

Published

2019

6. Plasma-photonic spatiotemporal synchronization of relativistic electron and laser beams

Author

Scherkl, Paul, Knetsch, Alexander, Heinemann, Thomas, Sutherland, Andrew, Habib, Ahmad Fahim, Karger, Oliver, Ullmann, Daniel, Beaton, Andrew, Kirwan, Gavin, Manahan, Grace, Xi, Yunfeng, Deng, Aihua, Litos, Michael Dennis, OShea, Brendan D., Green, Selina Z., Clarke, Christine I., Andonian, Gerard, Assmann, Ralph, Jaroszynski, Dino A., Bruhwiler, David L., Smith, Jonathan, Cary, John R., Hogan, Mark J., Yakimenko, Vitaly, Rosenzweig, James B., and Hidding, Bernhard

Subjects

Physics - Plasma Physics, Physics - Accelerator Physics

Abstract

Modern particle accelerators and their applications increasingly rely on precisely coordinated interactions of intense charged particle and laser beams. Femtosecond-scale synchronization alongside micrometre-scale spatial precision are essential e.g. for pump-probe experiments, seeding and diagnostics of advanced light sources and for plasma-based accelerators. State-of-the-art temporal or spatial diagnostics typically operate with low-intensity beams to avoid material damage at high intensity. As such, we present a plasma-based approach, which allows measurement of both temporal and spatial overlap of high-intensity beams directly at their interaction point. It exploits amplification of plasma afterglow arising from the passage of an electron beam through a laser-generated plasma filament. The corresponding photon yield carries the spatiotemporal signature of the femtosecond-scale dynamics, yet can be observed as a visible light signal on microsecond-millimetre scales.

Published

2019

7. Longitudinal phase space reconstruction simulation studies using a novel X-band transverse deflecting structure at the SINBAD facility at DESY

Author

Marx, Daniel, Assmann, Ralph, Craievich, Paolo, Dorda, Ulrich, Grudiev, Alexej, and Marchetti, Barbara

Subjects

Physics - Accelerator Physics

Abstract

A transverse deflecting structure (TDS) is a well-known device for characterizing the longitudinal properties of an electron bunch in a linear accelerator. The standard use of such a cavity involves streaking the bunch along a transverse axis and analysing the image on a screen downstream to find the bunch length and slice properties along the other transverse axis. A novel X-band deflecting structure, which will allow the polarization of the deflecting field to be adjusted, is currently being designed as part of a collaboration between CERN, DESY and PSI. This new design will allow bunches to be streaked at any transverse angle within the cavity, which will open up the possibility of new measurement techniques, which could be combined to characterize the 6D phase space distribution of bunches. In this paper, a method is presented for reconstructing the longitudinal phase space distribution of bunches by using the TDS in combination with a dipole. Simulations of this technique for the SINBAD-ARES beamline are presented and the key limitations related to temporal resolution and induced energy spread are discussed., Comment: 6 pages

Published

2018

8. Full PIC simulation of a first ACHIP experiment @ SINBAD

Author

Kuropka, Willi, Mayet, Frank, Dorda, Ulrich, and Assmann, Ralph

Subjects

Physics - Accelerator Physics

Abstract

In laser illuminated dielectric accelerators (DLA) high acceleration gradients can be achieved due to high damage thresholds of the materials at optical frequencies. This is a necessity for developing more compact particle accelerator technologies. The Accelerator on a CHip International Program (ACHIP) funded by the Gordon and Betty Moore Foundation is researching such devices. DESY Hamburg is part of the collaboration. The dedicated accelerator research facility SINBAD is particularly well suited for DLA experiments at relativistic electron energies. High quality beams and short bunch lengths are anticipated from the ARES linac which is currently under construction at SINBAD. The aim of the experiment is the injection of a short electron bunch from the ARES linac into a DLA. In this study the results of one of the first possible experiments at the facility are estimated via a combination of particle-in-cell (PIC) and tracking simulations. ASTRA is used to simulate an electron bunch from the ARES linac at a suitable working point. The dielectric part of the setup will be simulated using the PIC code from CST Particle Studio incorporating the retrieved bunch from the ASTRA simulation. The energy spectra of the electron bunches are calculated as would be measured from a spectrometer dipole with and without the laser fields.

Published

2018

9. Simulation of deflecting structures for dielectric laser driven accelerators

Author

Kuropka, Willi, Mayet, Frank, Dorda, Ulrich, and Assmann, Ralph

Subjects

Physics - Accelerator Physics

Abstract

In laser illuminated dielectric accelerators (DLA) high acceleration gradients can be achieved, due to high damage thresholds of the materials at optical frequencies. This is a necessity in developing more compact particle accelerator technologies. The Accelerator on a CHip International Program funded by the Gordon and Betty Moore Foundation is researching such devices. Means to manipulate the beam, i.e. focusing and deflection, are needed for the proper operation of such devices. These means should rely on the same technologies for manufacturing and powering like the accelerating structures. In this study different concepts for dielectric laser driven deflecting structures are investigated via particle-in-cell (PIC) simulations and compared afterwards. The comparison is conducted with respect to the suitability for beam manipulation. Another interesting application will be investigated as a diagnostic device for ultra short electron bunches from conventional accelerators functioning like a radio frequency transverse deflecting cavity (TDS).

Published

2018

10. Layout considerations for a future electron plasma research accelerator facility EuPRAXIA

Author

Walker, Paul Andreas, Assmann, Ralph Wolfgang, Brinkmann, Reinhard, Chiadroni, Enrica, Dorda, Ulrich, Ferrario, Massimo, Kocon, Dariusz, Marchetti, Barbara, Pribyl, Lukas, Specka, Arnd, and Walczak, Roman

Subjects

Physics - Accelerator Physics

Abstract

The Horizon 2020 Project EuPRAXIA (European Plasma Research Accelerator with eXcellence In Applications) is preparing a conceptual design for a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The design includes two user areas: one for FEL science and one for High Energy Physics (HEP) detector development and other pilot applications. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach. This contribution introduces layout considerations of the future plasma accelerator facilities in the context of EuPRAXIA. It compares conventional and novel plasma accelerator facility requirements and presents potential layouts for the future site. Together with performance analysis, cost effectiveness, and targeted user cases of the individual configurations, such layout studies will later enable a ranking of potential configurations. Based on this information the optimal combination of technologies will be defined for the 2019 conceptual design report of the EuPRAXIA facility., Comment: 5 pages, 2 figures, conference proceedings

Published

2018

11. Using short drive laser pulses to achieve net focusing forces in tailored dual grating dielectric structures

Author

Mayet, Frank, Assmann, Ralph, Dorda, Ulrich, and Kuropka, Willi

Subjects

Physics - Accelerator Physics

Abstract

Laser-driven grating type DLA (Dielectric Laser Accelerator) structures have been shown to produce accelerating gradients on the order of GeV/m. In simple $\beta$-matched grating structures due to the nature of the laser induced steady-state in-channel fields the per period forces on the particles are mostly in longitudinal direction. Even though strong transverse magnetic and electric fields are present, the net focusing effect over one period at maximum energy gain is negligible in the case of relativistic electrons. Stable acceleration of realistic electron beams in a DLA channel however requires the presence of significant net transverse forces. In this work we simulate and study the effect of using the transient temporal shape of short Gaussian drive laser pulses in order to achieve suitable field configurations for potentially stable acceleration of relativistic electrons in the horizontal plane. In order to achieve this, both the laser pulse and the grating geometry are optimized. Simulations conducted with the Particle-In-Cell code VSim 7.2 are shown for both the transient and steady state/long pulse case. Finally we investigate how the drive laser phase dependence of the focusing forces could affect a potential DLA-based focusing lattice., Comment: EAAC'17 conference proceedings

Published

2018

12. Simulations and plans for possible DLA experiments at SINBAD

Author

Mayet, Frank, Assmann, Ralph, Boedewadt, Joern, Brinkmann, Reinhard, Dorda, Ulrich, Kuropka, Willi, Lechner, Christoph, Marchetti, Barbara, and Zhu, Jun

Subjects

Physics - Accelerator Physics

Abstract

In this work we present the outlines of possible experiments for dielectric laser acceleration (DLA) of ultra-short relativistic electron bunches produced by the ARES linac, currently under construction at the SINBAD facility (DESY Hamburg). The experiments are to be performed as part of the Accelerator on a Chip International Program (ACHIP), funded by the Gordon and Betty Moore Foundation. At SINBAD we plan to test the acceleration of already pre-accelerated relativistic electron bunches in laser-illuminated dielectric grating structures. We present outlines of both the acceleration of ultra-short single bunches, as well as the option to accelerate phase-synchronous sub-fs microbunch trains. Here the electron bunch is conditioned prior to the injection by interaction with an external laser field in an undulator. This generates a sinusoidal energy modulation that is transformed into periodic microbunches in a subsequent chicane. The phase synchronization is achieved by driving both the modulation process and the DLA with the same laser pulse. In addition to the conceptual layouts and plans of the experiments we present start-to-end simulation results for different ARES working points., Comment: EAAC'17 conference proceedings

Published

2018

13. An Adiabatic Phase-Matching Accelerator

Author

Lemery, Francois, Floettmann, Klaus, Piot, Philippe, Kaertner, Franz X., and Assmann, Ralph

Subjects

Physics - Accelerator Physics

Abstract

We present a general concept to accelerate non-relativistic charged particles. Our concept employs an adiabatically-tapered dielectric-lined waveguide which supports accelerating phase velocities for synchronous acceleration. We propose an ansatz for the transient field equations, show it satisfies Maxwell's equations under an adiabatic approximation and find excellent agreement with a finite-difference time-domain computer simulation. The fields were implemented into the particle-tracking program {\sc astra} and we present beam dynamics results for an accelerating field with a 1-mm-wavelength and peak electric field of 100~MV/m. The numerical simulations indicate that a $\sim 200$-keV electron beam can be accelerated to an energy of $\sim10$~MeV over $\sim 10$~cm. The novel scheme is also found to form electron beams with parameters of interest to a wide range of applications including, e.g., future advanced accelerators, and ultra-fast electron diffraction.

Published

2017

14. A proposed experiment on the proton driven plasma wakefield acceleration

Author

Xia, Guoxing, Caldwell, Allen, Lotov, Konstantin, Pukhov, Alexander, Assmann, Ralph, and Zimmermann, Frank

Subjects

Physics - Accelerator Physics

Abstract

Simulations have shown that a high energy, short and intense proton beam can drive a large amplitude plasma wave and accelerate an electron beam to the energy frontier in a single plasma channel. To verify this novel idea, a proof-of-principle demonstration experiment is now being planned. The idea is to use the available high energy proton beams either from the Proton Synchrotron (PS) or the Super Proton Synchrotron (SPS) at CERN, to shoot the beam into a plasma cell and to excite the plasma wakefield. A strong density modulation due to the excited plasma wakefield is produced for a long drive beam and this modulated beam in turn produces a high electric field. The proposed experimental setup is introduced in this paper. The interactions between the plasma and the proton beam are simulated and the results are presented. The compression of an SPS bunch is also discussed., Comment: This paper is submitted to the proceedings of the first International Particle Accelerator Conference (IPAC10)in Kyoto, Japan

Published

2010

15. Highly scalable multicycle THz production with a homemade periodically poled macrocrystal

Author

Lemery, François, Vinatier, Thomas, Mayet, Frank, Aßmann, Ralph, Baynard, Elsa, Demailly, Julien, Dorda, Ulrich, Lucas, Bruno, Pandey, Alok-Kumar, and Pittman, Moana

Published

2020

16. Preface of the IPAC23 Proceedings.

Author

Assmann, Ralph W.

Published

2023

17. Intrinsic energy spread and bunch length growth in plasma-based accelerators due to betatron motion

Author

Ferran Pousa, Angel, Martinez de la Ossa, Alberto, and Assmann, Ralph W.

Published

2019

18. Progress in Hybrid Plasma Wakefield Acceleration

Author

Hidding, Bernhard, primary, Assmann, Ralph, additional, Bussmann, Michael, additional, Campbell, David, additional, Chang, Yen-Yu, additional, Corde, Sébastien, additional, Cabadağ, Jurjen Couperus, additional, Debus, Alexander, additional, Döpp, Andreas, additional, Gilljohann, Max, additional, Götzfried, J., additional, Foerster, F. Moritz, additional, Haberstroh, Florian, additional, Habib, Fahim, additional, Heinemann, Thomas, additional, Hollatz, Dominik, additional, Irman, Arie, additional, Kaluza, Malte, additional, Karsch, Stefan, additional, Kononenko, Olena, additional, Knetsch, Alexander, additional, Kurz, Thomas, additional, Kuschel, Stephan, additional, Köhler, Alexander, additional, Ossa, Alberto Martinez de la, additional, Nutter, Alastair, additional, Pausch, Richard, additional, Raj, Gaurav, additional, Schramm, Ulrich, additional, Schöbel, Susanne, additional, Seidel, Andreas, additional, Steiniger, Klaus, additional, Ufer, Patrick, additional, Yeung, Mark, additional, Zarini, Omid, additional, and Zepf, Matt, additional

Published

2023

19. Beam feasibility study of a collimator with in-jaw beam position monitors

Author

Wollmann, Daniel, Nosych, Andriy A., Valentino, Gianluca, Aberle, Oliver, Aßmann, Ralph W., Bertarelli, Alessandro, Boccard, Christian, Bruce, Roderik, Burkart, Florian, Calvo, Eva, Cauchi, Marija, Dallocchio, Alessandro, Deboy, Daniel, Gasior, Marek, Jones, Rhodri, Kain, Verena, Lari, Luisella, Redaelli, Stefano, and Rossi, Adriana

Published

2014

20. Summary of ARIES WP6 APEC & iFAST WP5.2 PAF joint Brainstorming & Strategy Workshop (BSW22)

Author

Zimmermann, Frank, Franchetti, Giuliano, Ischebeck, Rasmus, Scheinker, Alexander, Assmann, Ralph, Carli, Christian, Faus-Golfe, Angeles, Fol, Elena, Jacobsson, Richard, Kain, Verena, Kling, Felix, Witek, Mieczyslaw Witold, Shiltsev, Vladimir, and Tomas Garcia, Rogelio

Subjects

Machine Learning, Dielectric Accelerators, Subcritical Reactor, Gamma Factory, Far Detectors, Accelerators, Dark Sector, Nuclear Waste Transmutation

Abstract

Summary of ARIES WP6 APEC & iFAST WP5.2 PAF joint Brainstorming & Strategy Workshop (BSW22) R. Assmann (DESY), C. Carli (CERN), A. Faus-Golfe (IJCLab), E. Fol (CERN), G. Franchetti (GSI & GU Frankfurt), R. Jacobsson (CERN), V. Kain (CERN), F. Kling (DESY), M.W. Krasny (LPNHE), R. Ischebeck (PSI), A. Scheinker (LANL), V. Shiltsev (FNAL), R. Tomas Garcia (CERN), F. Zimmermann (CERN) edited by the BSW2022 workshop organisers A. Faus-Golfe (IJCLab), G. Franchetti (GSI & GU Frankfurt), F. Zimmermann (CERN) The ARIES WP6 APEC & iFAST WP5.2 PAF joint Brainstorming & Strategy Workshop (BSW22) from 30 March to 1 April 2022 addressed (1) present and future AI accelerator applications, and (2) beam requirements and accelerators for the dark sector. For both themes a number of conclusions were formulated. For example, dielectric acceleration appears to be an interesting approach for dark sector searches, calling for a suitable DLA accelerator design and experimental demonstration, while Machine Learning will become a community standard, and should be used for the design optimization of future machines. An intriguing proposal was the use of the LHC based Gamma Factory for driving a subcritical reactor with integrated waste transmutation., This project has received funding from the European Union's Horizon 2020 Research and Innovation programme under Grant Agreements No. 730871 (ARIES) and 101004730 (iFAST).

Published

2022

21. Plasma acceleration

Author

Assmann, Ralph, primary

Published

2016

22. Commissioning of a Movable Bunch Compressor for Sub-fs Electron Bunches

Author

Kuropka, Willi, Aßmann, Ralph, Burkart, Florian, Dinter, Hannes, Jaster-Merz, Sonja, Lemery, Francois, Mayet, Frank, Stacey, Blae, and Vinatier, Thomas

Subjects

electron, MMI, diagnostics, Electron Accelerators and Applications, linac, dipole, Accelerator Physics

Abstract

Proceedings of the 31st International Linear Accelerator Conference, LINAC2022, Liverpool, UK 31st International Linear Accelerator Conference, LINAC2022, Liverpool, United Kingdom, 28 Aug 2022 - 2 Sep 2022; [Geneva] : JACoW Publishing, Geneva, Switzerland 4 pp. (2022). doi:10.18429/JACoW-LINAC2022-THPOJO02, We present the first commissioning results of the movable bunch compressor (BC) designed for the ARES linac at DESY. The development and simulated performance has been reported earlier and predicts sub-fs electron bunches with high charge densities. Commissioning results of the injector part of the ARES linac delivered promising beam quality results to achieve these numbers. The bunch compressor system is foreseen to be used to bench mark numerical models for coherent synchrotron radiation (CSR) and space charge (SC) for ultra-short electron bunches. Here we will present first measurements of the dispersion as well as calculations for the longitudinal dispersion. In the future the PolariX transverse deflecting structure (TDS) will be commissioned to fully characterize the ARES electron beam., Published by JACoW Publishing, Geneva, Switzerland, [Geneva]

Published

2022

23. Dielectric Loaded THz Waveguide Experimentally Optimized by Dispersion Measurements

Author

Kellermeier, Max Joseph, Aßmann, Ralph, Flöttmann, Klaus, Hillert, Wolfgang, and Lemery, Francois

Subjects

electron, MC7: Accelerator Technology, experiment, GUI, Physics::Optics, Accelerator Technology [MC7], acceleration, higher-order-mode, Accelerator Physics

Abstract

Proceedings of the 13th International Particle Accelerator Conference, IPAC2022, Bangkok, Thailand 13th International Particle Accelerator Conference, IPAC'22, Bangkok, Thailand, 12 Jun 2022 - 17 Jun 2022; [Geneva] : JACoW Publishing, Geneva, Switzerland 1526-1529 (2022). doi:10.18429/JACoW-IPAC2022-TUPOMS044, Emerging high power THz sources pave the road for THz-driven acceleration of ultra-short bunches, and enable theirmanipulation for diagnostic purposes. Due to the smallfeature sizes of THz-guiding devices new methods are nec-essary for their electromagnetic characterization. A newtechnique has recently been developed which characterizesTHz waveguides with respect to their dispersion relationsand attenuation. Here, the method is applied to circularwaveguides, partially filled with polymer capillaries of dif-ferent thicknesses, to find a suitable size for THz drivenstreaking at 287 GHz. Further, rough 3d-printed metallicwaveguides are measured to study the effect of roughnesson attenuation and phase constant. In general, additive man-ufacturing techniques show promise for advanced integrateddesigns of THz driven structures., Published by JACoW Publishing, Geneva, Switzerland, [Geneva]

Published

2022

24. First Studies of 5D Phase-Space Tomography of Electron Beams at ARES

Author

Jaster-Merz, Sonja, Aßmann, Ralph, Brinkmann, Reinhard, Burkart, Florian, and Vinatier, Thomas

Subjects

electron, Technology, emittance, experiment, quadrupole, simulation, Accelerator Physics

Abstract

Proceedings of the 31st International Linear Accelerator Conference, LINAC2022, Liverpool, UK 31st International Linear Accelerator Conference, LINAC2022, Liverpool, UK, 28 Aug 2022 - 2 Sep 2022; [Geneva] : JACoW Publishing, Geneva, Switzerland 247-251 (2022). doi:10.18429/JACoW-LINAC2022-MOPORI10, A new beam diagnostics method to reconstruct the full 5-dimensional phase space (x, x’, y, y’, t) of bunches has recently been proposed. This method combines a quadrupole-based transverse phase-space tomography with the variable streaking angle of a polarizable X-band transverse deflecting structure (PolariX TDS). Two of these novel structures have recently been installed at the ARES beamline at DESY, which is a linear accelerator dedicated to accelerator research and development, including advanced diagnostics methods and novel accelerating techniques. In this paper, realistic simulation studies in preparation for planned experimental measurements are presented using the beamline setup at ARES. The reconstruction quality of the method for three beam distributions is studied and discussed, and it is shown how this method will allow the visualization of detailed features in the phase-space distribution., Published by JACoW Publishing, Geneva, Switzerland, [Geneva]

Published

2022

25. Energy Compression and Stabilization of Laser-Plasma Accelerators

Author

Ferran Pousa, Angel, Agapov, Ilya, Antipov, Sergey, Assmann, Ralph, Brinkmann, Reinhard, Jalas, Soeren, Kirchen, Manuel, Leemans, Wim, Maier, Andreas, Martinez de la Ossa, Alberto, Osterhoff, Jens, and Thévenet, Maxence

Subjects

Accelerator Physics (physics.acc-ph), beam: energy spectrum, beam: stability, plasma [accelerator], accelerator: plasma, beam: phase space, FOS: Physical sciences, Physics - Plasma Physics, Plasma Physics (physics.plasm-ph), energy spectrum [beam], phase space [beam], stability [beam], quality, Physics - Accelerator Physics, ddc:530, numerical calculations, bunching

Abstract

Physical review letters 129(9), 094801 (2022). doi:10.1103/PhysRevLett.129.094801, Laser-plasma accelerators outperform current radio frequency technology in acceleration strength by orders of magnitude. Yet, enabling them to deliver competitive beam quality for demanding applications, particularly in terms of energy spread and stability, remains a major challenge. In this Letter, we propose to combine bunch decompression and active plasma dechirping for drastically improving the energy profile and stability of beams from laser-plasma accelerators. Realistic start-to-end simulations demonstrate the potential of these postacceleration phase-space manipulations for simultaneously reducing an initial energy spread and energy jitter of ∼1–2% to ≲0.1%, closing the beam-quality gap to conventional acceleration schemes., Published by APS, College Park, Md.

Published

2022

26. The ARES LINAC at DESY

Author

Burkart, Florian, Assmann, Ralph, Dinter, Hannes, Mayet, Frank, Vinatier, Thomas, Kuropka, Willi, Stacey, Blae, and Jaster-Merz, Sonja Meike

Subjects

Electron Accelerators and Applications, Accelerator Physics

Abstract

The generation and acceleration of ultra-short, high quality electron beams has attracted more and more interest in accelerator science. Electron bunches with these properties are necessary to operate and test novel diagnostics and advanced high gradient accelerating schemes. Furthermore, several medical and industrial applications require high-brightness electron beams. The dedicated R linac ARES at DESY (Deutsches Elektronen-Synchrotron) is now fully operational and able to produce these electron beams at the nominal energy of 155 MeV and deliver it to users. This paper gives an overview of the ARES linac and summarizes the beam parameter measurements. The possibilities for user operation will be described in detail., Proceedings of the 31st International Linear Accelerator Conference, LINAC2022, Liverpool, UK

Published

2022

27. 5D Tomography of Electron Bunches at ARES

Author

Jaster-Merz, Sonja, Aßmann, Ralph, Brinkmann, Reinhard, Burkart, Florian, and Vinatier, Thomas

Subjects

Beam Instrumentation, Controls, Feedback and Operational Aspects [MC6], Physics::Accelerator Physics, MC6: Beam Instrumentation, Controls, Feedback and Operational Aspects, Accelerator Physics

Abstract

Proceedings of the 13th International Particle Accelerator Conference, IPAC2022, Bangkok, Thailand 13th International Particle Accelerator Conference, IPAC`22, Bangkok, Thailand, Thailand, 12 Jun 2022 - 17 Jun 2022; [Geneva] : JACoW Publishing, Geneva, Switzerland 279-283 (2022). doi:doi:10.18429/JACoW-IPAC2022-MOPOPT021, The ARES linear accelerator at DESY aims to deliver stable and well-characterized electron bunches with durations down to the sub-fs level. Such bunches are highly sought after to study the injection into novel high-gradient accelerating structures, test diagnostics devices, or perform autonomous accelerator studies. For such applications, it is advantageous to have a complete and detailed knowledge of the beam properties. Tomographic methods have shown to be a key tool to reconstruct the phase space of beams. Based on these techniques, a novel diagnostics method is being developed to resolve the full 5-dimensional phase space (x,x’,y,y’,z) of bunches including their transverse and longitudinal distributions and correlations. In simulation studies, this method shows an excellent agreement between the reconstructed and the original distribution for all five planes. Here, the 5-dimensional phase space tomography method is presented using a showcase simulation study at ARES., Published by JACoW Publishing, Geneva, Switzerland, [Geneva]

Published

2022

28. Physics for health

Author

Assmann, Ralph W., primary, Cerullo, Giulio, additional, and Ritort, Felix, additional

Published

2022

29. Review of accelerator limitations and routes to ultimates beams

Author

Zimmermann, Franck, Assmann, Ralph, Bai, M, and Franchetti, Giuliano

Abstract

Various physical and technology-dependent limits are en-countered for key performance parameters of accelerators such as high-gradient acceleration, high-field bending, beam size, beam brightness, beam intensity and luminosity. This paper will review these limits and the associated challenges. Possible figures-of-merit and pathways to ultimate colliders will also be explored.

Published

2021

30. Commissioning Results and Electron Beam Characterization with the S-Band Photoinjector at SINBAD-ARES

Author

Panofski, Eva, primary, Assmann, Ralph, additional, Burkart, Florian, additional, Dorda, Ulrich, additional, Genovese, Luca, additional, Jafarinia, Farzad, additional, Jaster-Merz, Sonja, additional, Kellermeier, Max, additional, Kuropka, Willi, additional, Lemery, Francois, additional, Marchetti, Barbara, additional, Marx, Daniel, additional, Mayet, Frank, additional, Vinatier, Thomas, additional, and Yamin, Sumera, additional

Published

2021

31. Status of the Dedicated Electron Diagnostic Beamline at AXSIS

Author

Dinter, Hannes, Aßmann, Ralph, Burkart, Florian, Kellermeier, Max Joseph, and Lechner, Christoph

Subjects

Beam Instrumentation, Controls, Feedback and Operational Aspects [MC6], MC6: Beam Instrumentation, Controls, Feedback and Operational Aspects, Accelerator Physics

Abstract

Proceedings of the 12th International Particle Accelerator Conference, IPAC2021, Campinas, SP, Brazil 12th International Particle Accelerator Conference, IPAC���21, Campinas, Brazil, 24 May 2021 - 28 May 2021; Geneva : JACoW 4 pp. (2021). doi:10.18429/JACOW-IPAC2021-MOPAB284, AXSIS (Attosecond X-ray Science: Imaging and Spectroscopy) is a compact, accelerator-driven X-ray source currently under construction at DESY Hamburg. It comprises a THz-powered electron gun and THz-driven linac for all-optical electron extraction and acceleration to several MeV with the goal of providing X-rays generated by inverse Compton scattering for photon science experiments. For the commissioning and characterisation of the THz gun and linac the facility includes a dedicated accelerator testing area, for which an electron diagnostic beamline has been designed and is currently under construction. The challenges imposed by the AXSIS project on the development of the diagnostics beamline are the wide ranges of bunch charge (15 fC to 3 pC) and energy (5 MeV to 20 MeV) expected from the THz-driven accelerator as well as the limited available space of only ca. 2.5 metres length. In this contribution we present an overview of the design and the current commissioning status of the electron diagnostic beamline as well as plans for future steps., Published by JACoW, Geneva

Published

2021

32. Commissioning Results and Electron Beam Characterization at the S-band Photoinjector at SINBAD-ARES

Author

Panofski, Eva, Assmann, Ralph, Burkart, Florian, Dorda, U., Genovese, Luca, Jafarinia, Farzad, Jaster-Merz, Sonja Meike, Kellermeier, Max, Kuropka, Willi, Lemery, Francois, Marchetti, Barbara, Marx, D., Mayet, Frank, Vinatier, Thomas, and Yamin, Sumera

Subjects

DESY, S-band photoinjector, beam commissioning, SINBAD, Physics::Accelerator Physics, ARES

Abstract

Over the last years, the generation and acceleration of ultra-short, high quality electron beams has attracted more and more interest in accelerator science. Electron bunches with these properties are necessary to operate and test novel diagnostics and advanced high gradient accelerating schemes such as plasma accelerators or dielectric laser accelerators. Furthermore, several medical and industrial applications require high-brightness electron beams. The dedicated R&D facility ARES at DESY will provide such probe beams in the upcoming years. After the setup of the normal-conducting RF photoinjector and linear accelerating structures, ARES successfully started the beam commissioning of the RF gun. This paper gives an overview of the ARES photoinjector setup and summarizes the results of the gun commissioning process. The quality of the first generated electron beams is characterized in terms of charge, momentum, momentum spread and beam size. Additionally, the dependencies of the beam parameters on RF settings are investigated. All measurement results of the characterized beams fulfill the requirements to operate the ARES linac with this RF photoinjector.

Published

2021

33. Compact Terahertz-Powered Electron Photo-Gun

Author

Kroh, Tobias, Aßmann, Ralph, Çankaya, Huseyin, Demirbas, Uemit, Dinter, Hannes, Fakhari, Moein, Hemmer, Michael, Kärtner, Franz, Kellermeier, Max Joseph, Matlis, Nicholas, Pergament, Mikhail, and Rohwer, Timm

Subjects

MC3: Novel Particle Sources and Acceleration Techniques, Physics::Optics, Physics::Accelerator Physics, Novel Particle Sources and Acceleration Techniques [MC3], Accelerator Physics

Abstract

Proceedings of the 12th International Particle Accelerator Conference, IPAC2021, Campinas, SP, Brazil 12th International Particle Accelerator Conference, IPAC 2021, Campinas, Brazil, 24 Nov 2021 - 28 Nov 2021; JACoW Publishing, Geneva, Switzerland 2983-2985 (2021). doi:doi:10.18429/JACoW-IPAC2021-WEPAB158, Novel accelerator concepts such as all-optical THz based compact accelerators promise to enable new science due to unique features such as reduced timing-jitter and improved space-charge broadening of the generated electron bunches. However, multi-keV electron photo-guns based on short single-cycle THz pulses for acceleration have not been demonstrated experimentally so far. Here, we present a modular THz-driven electron gun with both tunable interaction length and output orifice allowing optimization of the sub-mm interaction volume. First extraction of multi-keV electrons is demonstrated and the parameter space as well as resulting performance of the THz-driven gun by varying the timing of the two single-cycle THz pulses and the UV photo-excitation pulse are explored. Such compact gun prototypes are not only promising as injectors for compact THz-based LINACs but also as source for ultrafast electron diffraction experiments., Published by JACoW Publishing, Geneva, Switzerland

Published

2021

34. Characterization of the Full Transverse Phase Space of Electron Bunches at ARES

Author

Jaster-Merz, Sonja, Aßmann, Ralph, Brinkmann, Reinhard, Burkart, Florian, Dinter, Hannes, Kuropka, Willi, Mayet, Frank, and Vinatier, Thomas

Subjects

Beam Instrumentation, Controls, Feedback and Operational Aspects [MC6], Physics::Accelerator Physics, MC6: Beam Instrumentation, Controls, Feedback and Operational Aspects, Accelerator Physics

Abstract

Proceedings of the 12th International Particle Accelerator Conference, IPAC2021, Campinas, SP, Brazil 12th International Particle Accelerator Conference, IPAC���21, Campinas, Brazil, 24 May 2021 - 28 May 2021; Geneva : JACoW Publishing 4 pp. (2021). doi:10.18429/JACoW-IPAC2021-MOPAB302, The ARES linear accelerator at the SINBAD facility (DESY) is dedicated to perform accelerator R studies with sub-fs short electron bunches to test novel acceleration techniques and diagnostics devices. Currently, the commissioning of the linac is ongoing and first experiments are being performed. For this, the knowledge of the full phase space of the particle beams is of high interest to, for example, optimize the accelerator performance and identify possible errors in the beam line. Tomographic methods can be used to gain insight into the full 4D transverse phase space and its correlations. Here, simulation results and first experimental preparations of a 4D transverse phase-space tomography of electron bunches at ARES are presented and discussed., Published by JACoW Publishing, Geneva

Published

2021

35. Review of Accelerator Limitations and Routes to Ultimate Beams

Author

Zimmermann, Frank, Aßmann, Ralph, Bai, Mei, Franchetti, Giuliano, Lin, Liu (Ed.), Byrd, John M. (Ed.), Regis Neuenschwander (Ed.), Picoreti, Renan (Ed.), and Schaa, Volker R. W. (Ed.)

Subjects

MC1: Circular and Linear Colliders, Physics::Accelerator Physics, Accelerators and Storage Rings, Accelerator Physics

Abstract

Various physical and technology-dependent limits are encountered for key performance parameters of accelerators such as high-gradient acceleration, high-field bending, beam size, beam brightness, beam intensity and luminosity. This paper will review these limits and the associated challenges. Possible figures-of-merit and pathways to ultimate colliders will also be explored., Proceedings of the 12th International Particle Accelerator Conference, IPAC2021, Campinas, SP, Brazil

Published

2021

36. Generation of 100-MeV Attosecond Electron Bunches with Terawatt Few-Cycle Laser Pulses

Author

Zhu, Xing-Long, primary, Liu, Wei-Yuan, additional, Chen, Min, additional, Weng, Su-Ming, additional, He, Feng, additional, Assmann, Ralph, additional, Sheng, Zheng-Ming, additional, and Zhang, Jie, additional

Published

2021

37. IPAC20, the First Virtual International Particle Accelerator Conference

Author

Seidel, Mike, primary, Aßmann, Ralph, additional, and Chautard, Frédéric, additional

Published

2021

38. Compact THz Photogun Transversely Pumped By Twin Single-Cycle Pulses

Author

Kroh, Tobias, primary, Rohwer, Timm, additional, Dinter, Hannes, additional, Kellermeier, Max, additional, Fakhari, Moein, additional, Hemmer, Michael, additional, Demirbas, Umit, additional, Çankaya, Huseyin, additional, Pergament, Mikhail, additional, Aßmann, Ralph, additional, Matlis, Nicholas H., additional, and Kärtner, Franz X., additional

Published

2021

39. Temporal and Spatial Challenges for Electron Acceleration inside Dielectric Laser Accelerators in the Relativistic Regime

Author

Cankaya, Huseyin, primary, Mayet, Frank, additional, Kuropka, Willi, additional, Mahnke, Christoph, additional, Vidoli, Caterina, additional, Genovese, Luca, additional, Lemery, Francois, additional, Burkart, Florian, additional, Schulz, Sebastian, additional, Lamb, Thorsten, additional, Titberidze, Mikheil, additional, Müller, Jost, additional, Aßmann, Ralph, additional, Hartl, Ingmar, additional, and Kärtner, Franz X., additional

Published

2021

40. Introduction

Author

Assmann, Ralph, primary and Ferrario, Massimo, additional

Published

2020

41. SINBAD-ARES - A Photo-Injector for external Injection Experiments in novel Accelerators at DESY

Author

Marchetti, Barbara, primary, Assmann, Ralph, additional, Brinkmann, Reinhard, additional, Burkart, Florian, additional, Dorda, Ulrich, additional, Floettmann, Klaus, additional, Hartl, Ingmar, additional, Hillert, Wolfgang, additional, Huening, Markus, additional, Jafarinia, Farzad, additional, Jaster-Merz, Sonja, additional, Kellermeier, Max, additional, Kuropka, Willi, additional, Lemery, Francois, additional, Marx, Daniel, additional, Mayet, Frank, additional, Panofski, Eva, additional, Pfeiffer, Sven, additional, Schlarb, Holger, additional, Vinatier, Thomas, additional, Walker, Paul Andreas, additional, Winkelmann, Lutz, additional, and Yamin, Sumera, additional

Published

2020

42. Towards additive manufacturing of dielectric accelerating structures

Author

Kellermeier, Max, primary, Zinsli, Simon, additional, Dorda, Ulrich, additional, Ischebeck, Rasmus, additional, Lehmann, Jonas, additional, Hermann, Benedikt, additional, Flöttmann, Klaus, additional, Lemery, François, additional, Dinter, Hannes, additional, Lombosi, Csaba, additional, Magjar, Marijo, additional, Stingelin, Lukas, additional, Hillert, Wolfgang, additional, and Aßmann, Ralph, additional

Published

2020

43. Simulation studies for characterizing ultrashort bunches using novel polarizable X-band transverse deflection structures

Author

Marx, Daniel, primary, Assmann, Ralph W., additional, Craievich, Paolo, additional, Floettmann, Klaus, additional, Grudiev, Alexej, additional, and Marchetti, Barbara, additional

Published

2019

44. Facility Considerations for a European Plasma Accelerator Infrastructure (EuPRAXIA)

Author

Walker, Paul Andreas, Aßmann, Ralph, Chiadroni, Enrica, Dorda, Ulrich, Ferrario, Massimo, Marchetti, Barbara, Specka, Arnd, Walczak, Roman, Weikum, Maria, Laboratoire Leprince-Ringuet (LLR), and Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS)

Subjects

electron, MC3: Novel Particle Sources and Acceleration Techniques, [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], site, Physics::Accelerator Physics, positron, 7. Clean energy, plasma, Accelerator Physics, laser

Abstract

EuPRAXIA (European Plasma Research Accelerator with eXcellence In Applications) is a conceptual design study for a compact European infrastructure with multi-GeV electron beams based on plasma accelerators. The concept foresees two main experimental sites, one at INFN in Frascati and one at DESY in Hamburg. In Frascati, an RF injector based on S-band and X-band technology (electron energy up to 1 GeV) will be constructed and used as a drive beam for beam driven plasma acceleration (PWFA) with final electron beam energies up to 5 GeV. At DESY, the focus will be on laser driven plasma acceleration (LWFA) and an RF injector based on S-band technology (electron energy up to 240 MeV) or alternatively a plasma injector (electron energy up to 150 MeV) can be used before the beam is injected into the plasma accelerator for external LWFA and acceleration up to 5 GeV. A single stage approach based on LWFA with internal injection will also be pursued in a second beamline. User areas at both sites will provide access to FEL pilot experiments, positron generation, compact radiation sources, and test beams for HEP detector development. This contribution discusses facility space considerations for the future plasma accelerator research infrastructure of EuPRAXIA., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

45. Towards an Advanced Linear International Collider

Author

Adli, Erik, An, Weiming, Andreev, Nikolay, Apsimon, Oznur, Assmann, Ralph, Babiegeon, Jean-Luc, Bingham, Robert, Blackburn, Tom, Brady, Christopher, Bussmann, Michael, Carlsten, Bruce, Chappell, James, Chen, Jian Bin Ben, Corde, Sebastian, Corner, Laura, Cowan, Benjamin, Cros, Brigitte, England, Joel, Esarey, Eric, Fonseca, Ricardo, Foster, Brian, Gessner, Spencer, Gizzi, Leonida A., Gordon, Daniel, Gschwendtner, Edda, Hartin, Anthony, Hidding, Bernhard, Hogan, Mark, Hooker, Simon, Hughes, T., Kanareykin, Alexei, Karsch, Stefan, Khoze, Valentin, Kumar, Pawan, Leemans, Wim, Lemery, Francois, Li, Ang, Li, R., Libov, Vladyslav, Sistrunk Link, Emily, Litos, Michael, Loisch, Gregor, Lopes, Nelson, Lundh, Olle, Lyapin, Alexey, Marin, Edu, Marklund, Mattias, Mehrling, Timon, Muggli, Patric, Musumeci, Pietro, Najmudin, Zulfikar, Niedermayer, Uwe, Osterhoff, Jens, Palmer, Marc, Pattathil, Rajeev, Michael Peskin, Piot, Phillipe, Power, John, Pukhov, Alexander, Ratcliffe, Heather, Riembau, Marc, Sanz, Veronica, Sarri, Gianluca, Saveliev, Yuri, Schlachter, Levi, Schaper, Lucas, Schoeneberger, Norbert, Schroeder, Carl, Schroeder, Sarah, Schulte, Daniel, Seryi, Andrei, Shchelkunov, Sergey, Siders, Craig, Simakov, Evgenya, Simon-Boissen, Christophe, Spannowsky, Michael, Swinson, Christina, Szczepkowicz, Andrzej, Tarkeshian, Roxana, Thomas, Johannes, Tian, Junping, Tilborg, J. V., Tomassini, Paolo, Tsakanov, Vasili, Vay, Jean-Luc, Vieira, Jorge, Vincenti, Henri, Walczak, Roman, Wang, Dan, Webb, Stephan, White, Glen, Xia, Guoxing, Yamamoto, Hitoshi, You, Tevong, Zagorodnov, Igor, Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), École polytechnique (X), Laboratoire de physique des gaz et des plasmas (LPGP), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), ALEGRO, and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects

Accelerator Physics (physics.acc-ph), [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], multi-TeV electron- positron linear collider, FOS: Physical sciences, Physics - Accelerator Physics, Advanced and Novel Accelerators, accelerator: technology, linear accelerator, Accelerators and Storage Rings, accelerator: design, activity report, physics.acc-ph

Abstract

This document provides detailed information on the status of Advanced and Novel Accelerators techniques and describes the steps that need to be envisaged for their implementation in future accelerators, in particular for high energy physics applications. It complements the overview prepared for the update of the European Strategy for particle physics, and provides a detailed description of the field. The scientific priorities of the community are described for each technique of acceleration able to achieve accelerating gradient in the GeV~range or above. ALEGRO working group leaders have coordinated the preparation of their working group contribution and contributed to editing the documents. The preparation of this document was coordinated by the Advanced LinEar collider study GROup, ALEGRO. The content was defined through discussions at the ALEGRO workshop in Oxford UK, March 2018, and an advanced draft was discussed during a one day meeting prior to the AAC workshop in Breckenridge, CO, USA, August 2018. This document was submitted as an addendum to the ALEGRO submission to the European Strategy for Particle Physics., 83 pages

Published

2019

46. Design Considerations for Permenant Magnetic Quadrupole Triplet for Matching Into Laser Driven Wake Field Acceleration Experiment at SINBAD

Author

Yamin, Sumera, Aßmann, Ralph, Dorda, Ulrich, Lemery, Francois, Marchetti, Barbara, Panofski, Eva, and Walker, Paul Andreas

Subjects

MC5: Beam Dynamics and EM Fields, Physics::Accelerator Physics, Accelerator Physics

Abstract

10th International Particle Accelerator Conference, IPAC'19, Melbourne, Australia, 19 May 2019 - 24 May 2019; JACoW Publishing, Geneva, Switzerland 143-146 (2019). doi:10.18429/JACOW-IPAC2019-MOPGW027, SINBAD (Short and INnovative Bunches and Accelerators at DESY) facility aims to produce ultrashort bunches (sub-fs) at ~100 MeV, suitable for injection into novel accelerators e.g. dielectric Laser acceleration (DLA) and Laser Driven Wakefield acceleration (LWFA). The LWFA experiment demands β functions to be of the order of 1 mm to reduce energy spreads and emittance growth from nonlinearities. Matching such a space charge dominated beam to such constraints with conventional electromagnets is challenging. A Permanent Magnetic Quadrupole (PMQ) triplet is one promising focusing strategy. In this paper, we investigate the performance of a PMQ triplet to fit the requirements of the electron beam properties in a plasma cell and discuss the realizable phase spaces for the LWFA experiment planned at SINBAD., Published by JACoW Publishing, Geneva, Switzerland

Published

2019

47. LUXE - a QED Experiment at the European XFEL

Author

Burkart, Florian, Aßmann, Ralph, Brinkmann, Reinhard, Decking, Winfried, Golubeva, Nina, Heinemann, Beate, Hüning, Markus, List, Jenny, and Wing, Matthew

Subjects

MC2: Photon Sources and Electron Accelerators, Physics::Accelerator Physics, Accelerator Physics

Abstract

10th International Particle Accelerator Conference (IPAC 2019), Melbourne, Australia, 24 May 2019 - 29 May 2019; JACoW Publishing, Geneva, Switzerland 1 pp. (2019). doi:10.18429/JACOW-IPAC2019-TUPRB008, The proposed experiment aims to measure QED in the presence of strong fields and above the Schwinger critical field. An experiment is being considered at the European XFEL, which should be able to measure non-perturbative QED and its transition from the perturbative regime. This paper presents the current status of the LUXE (Laser und XFEL Experiment) design study. First layout considerations; accelerator beam line design, electron and laser beam parameters, radioprotection issues and first results of the start to end simulations will be presented and discussed in detail. An outlook concerning the implementation into the XFEL schedule and timeline of this experiment will be given., Published by JACoW Publishing, Geneva, Switzerland

Published

2019

48. Commissioning-Stages and Radio-Protection Concept for the THz-Linac Based Accelerator 'AXSIS' at DESY

Author

Burkart, Florian, Aßmann, Ralph, Dorda, Ulrich, Kärtner, Franz, Marchetti, Barbara, Matlis, Nicholas, and Rohwer, Timm

Subjects

MC3: Novel Particle Sources and Acceleration Techniques, Accelerator Physics

Abstract

The dedicated accelerator R facility SINBAD at DESY hosts the AXSIS accelerator. This project is funded by the European Research Council to develop a compact source for attosecond serial X-ray crystallography and spectroscopy. For that purpose, in one of the arcs of the SINBAD facility and the neighboring laser labs, an accelerator research site is being constructed where a fully THz-driven accelerator (electron gun and linac, 30MeV) will be installed. The current status of the hardware installation of the electron beam accelerator is presented. Furthermore, the required radio-protection measures and maximum beam parameters are presented. In this contribution the commissioning plans and the staging of the beam operation for the accelerator complex will be shown and discussed in detail., Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia

Published

2019

49. Seeding R at sFLASH

Author

Lechner, Christoph, Ackermann, Sven, Aßmann, Ralph, Azima, Armin, Biss, Hauke, Drescher, Markus, Faatz, Bart, Grattoni, Vanessa, Hartl, Ingmar, Hartwell, Samuel, Hillert, Wolfgang, Ivanov, Rosen, Khan, Shaukat, Laarmann, Tim, Lang, Tino, Miltchev, Velizar, Mohammad Kazemi, Mehdi, Paraskaki, Georgia, Przystawik, Andreas, Roßbach, Jörg, and Zheng, Jiaan

Subjects

Seeded FEL, Accelerator Physics

Abstract

Free-electron lasers (FELs) based on the self-amplified spontaneous emission (SASE) principle generate photon pulses with typically poor longitudinal coherence. FEL seeding techniques greatly improve longitudinal coherence by initiating FEL amplification in a controlled way using coherent light pulses. The sFLASH experiment installed at the FEL user facility FLASH at DESY in Hamburg is dedicated to the study of external seeding techniques. In this paper, the layout of the sFLASH seeding experiment is presented and an overview of recent developments is given., Proceedings of the 39th Free Electron Laser Conference, FEL2019, Hamburg, Germany

Published

2019

50. The Effect of the Transverse Beam Jitter on the Accelerated Electron Beam Quality in a Laser-Driven Plasma Accelerator with External Injection at SINBAD for ATHENAe

Author

Svystun, Elena, Aßmann, Ralph, Dorda, Ulrich, and Marchetti, Barbara

Subjects

MC3: Novel Particle Sources and Acceleration Techniques, Physics::Accelerator Physics, Accelerator Physics

Abstract

10th International Particle Accelerator Conference, IPAC'19, Melbourne, AUSTRALIA, 19 May 2019 - 24 May 2019; JACoW Publishing, Geneva, Switzerland 3624-3627 (2019). doi:10.18429/JACOW-IPAC2019-THPGW022, Laser plasma accelerators with external injection of an RF-generated electron beam, providing high accelerating field gradients and increased control over the electron beam injection process, are promising candidates for production electron beams matching the requirements of modern user-applications. The experiments are planned at the SINBAD (Short INnovative Bunches and Accelerators at DESY) facility to test this acceleration technique in the context of the ATHENAe (Accelerator Technology HElmholtz iNfrAstructure) project. In this paper we present numerical studies on the effect of the transverse electron beam jitter on the final quality of a sub-femtosecond, 0.75 pC, 100 MeV electron beam accelerated to 1 GeV energy in the plasma wakefield driven by a 196 TW, 5 J laser pulse., Published by JACoW Publishing, Geneva, Switzerland

Published

2019