Research with CRYRING@ESR

Europe/Berlin
Hörsaal KBW 1.017 (GSI Helmholtzzentrum für Schwerionenforschung)

Hörsaal KBW 1.017

GSI Helmholtzzentrum für Schwerionenforschung

Planckstraße 1 64291 Darmstadt Germany
Frank Herfurth (GSI, Darmstadt) , Michael Lestinsky (GSI, Darmstadt) , Thomas Stöhlker (GSI, Darmstadt)
Description
In the last few years, the CRYRING@ESR project has been a huge effort which is soon complete and is now gradually transiting into productive operation with commissioning presently ongoing. Soon, first scientific results will be produced at this new facility.

This wokshop shall celebrate the project status and preview the diversity of the future experimental programme by presentations and posters and guided tours around the new installation.
Participants
  • Ajit Kumar
  • Alejandro Saenz
  • Alexander Borovik
  • Alexandre Gumberidze
  • Alfred Müller
  • Alison Laird
  • Anders Källberg
  • Andreas Fleischmann
  • Andreas WOLF
  • Andreas Wucher
  • Andrey Bondarev
  • Anton Kalinin
  • Axel Buß
  • Benjamin Ebinger
  • Carlo Bruno
  • Christoph Langer
  • Christophor Kozhuharov
  • Claude Krantz
  • Damian Müll
  • Daniel Schury
  • Daniel Severin
  • Daniel Winzen
  • Danyal Winters
  • Dariusz Banaś
  • Dimash Torekhan
  • Dominique VERNHET
  • Emily LAMOUR
  • Farsane Baraki
  • Frank Herfurth
  • H.-Jürgen Kluge
  • Hermann Rothard
  • Håkan Danared
  • Jan Glorius
  • Jan Rothhardt
  • Manuel Vogel
  • Markus Schöffler
  • Martino Trassinelli
  • Michael Heil
  • Michael Lestinsky
  • Mykhailo Dumchev
  • Nikolaos Petridis
  • Oliver Forstner
  • Paolo Giubellino
  • Pascal Scholz
  • Phil Woods
  • Philipp Reiß
  • Radek Pleskac
  • Reinhold Schuch
  • Rene REIFARTH
  • Robert Klas
  • Rodolfo Sánchez
  • Sabrina Geyer
  • Saskia Kraft-Bermuth
  • Sebastian Dedera
  • Sergiy Trotsenko
  • Shahab Sanjari
  • Siegbert Hagmann
  • Sivaji Purushothaman
  • Stefan Schippers
  • Thomas Davinson
  • Thomas Kühl
  • Thomas Stöhlker
  • Tino Morgenroth
  • Udo Weinrich
  • Uwe Spillmann
  • Vladimir Shabaev
  • Wilfried Noertershaeuser
  • Yury Litvinov
  • Zuzana Slavkovska
    • 14:00 15:20
      Talks: Session I Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
      Convener: Thomas Stöhlker (GSI, Darmstadt)
      • 14:00
        Welcome address 20m
        Speaker: Prof. paolo giubellino (gsi)
      • 14:20
        Quantum dynamics of electrons in low-energy heavy-ion collisions 30m
        Speaker: Vladimir Shabaev (GSI, Darmstadt)
      • 14:50
        Nuclear Astrophysics 30m
        Speaker: Dr Alison Laird (Department of Physics, University of York)
    • 15:20 15:50
      Coffee 30m Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
    • 15:50 17:20
      Talks: Session II Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
      Convener: Prof. Alfred Müller (JLU Giessen)
      • 15:50
        CRYRING, performance and characteristics of the Stockholm installation 1990-2010 30m
        Speaker: Dr Anders Källberg (Department of Physics, Stockholm University)
      • 16:20
        CRYRING@ESR machine performance 20m
        Speaker: Dr Frank Herfurth (GSI, Darmstadt)
      • 16:40
        TBA (tentatively: (p,gamma) in the Gamow window of the p-Process) 20m
        Speaker: Dr Rene REIFARTH (University of Frankfurt)
      • 17:00
        TBA (tentatively: Materials modifications with low-energetic HCI) 20m
        Speaker: Prof. Andreas Wucher (University Duisburg-Essen)
    • 17:20 17:40
      Coffee 20m Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
    • 17:40 19:10
      CRYRING tours TH 1.023

      TH 1.023

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany

      Guided tours

      Conveners: Dr Frank Herfurth (GSI, Darmstadt) , Dr Michael Lestinsky (GSI, Darmstadt)
    • 19:10 21:10
      Dinner buffet Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
    • 19:10 21:10
      Posters Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
      • 19:10
        A Detection System for Laser Spectroscopy Experiments at CRYRING 2h
        In order to enable laser spectroscopy experiments at CRYRING, a new general purpose fluorescence detector is being developed at the University of Münster. The design allows detection from ultraviolet wavelengths to the near infrared regime. Thus, the detector can be used to observe a large variety of atomic transitions. Among others Mg- (at 280 nm) and Ca+ (at 854 nm/866 nm) ions have transitions in the wavelength regime covered by the detector. Geant4 simulations have been performed in order to optimize the detection efficiency of fluorescence photons, while – at the same time – suppressing the detection of background photons. This is achieved by an elliptical detector geometry, which selectively focuses fluorescence photons from the beam axis onto one of three interchangeable PMTs. Currently, the mechanical design of the hardware being completed and first components will be ordered soon. This project is funded by BMBF under contract number 05P15PMFAA.
        Speaker: Mr Axel Buß (Westfälische-Wilhelms-Universität)
      • 19:10
        Commissioning of a high-power electron gun for electron-ion crossed-beams experiments 2h
        In an electron-ion crossed-beams experiment, the experimental sensitivity is mainly determined by the densities of both beams in the interaction region. Aiming at the extension of the available range of accessible electron energies and densities, a new high-power electron gun has been developed and built. It delivers a ribbon-shaped beam with high currents at all energies variable between 10 and 3500 eV. The expected high currents and good beam transmission have already been shown. Here, we report on the current status of commissioning of this electron gun. The electron gun is integrated into the experimental electron-ion crossed-beams setup in Giessen. Employing the animated crossed-beams technique, first cross sections for electron-impact ionization of xenon and helium ions were measured. The measurement of more cross sections is intended for the near future. Further investigations concerning, e.g., space-charge effects in the high-density electron beam are currently performed.
        Speaker: Mr Benjamin Ebinger (Justus-Liebig-Universität Gießen)
      • 19:10
        Dielectronic-recombination processes in highly-charged heavy ions 2h
        Dielectronic-recombination (DR) spectra of highly-charged W$^{𝑞+}$ and Ir$^{𝑞+}$ ions have been measured by employing the Electron-Beam Ion Trap (EBIT) at National Institute of standards and Technology [1] and the Main Magnetic Focus Ion Trap (MaMFIT) [2] at Justus-Liebig Universität Gießen, respectively, over wide ranges of electron-beam energies. A series of DR resonances involving transitions between 2𝑙 → 3𝑙′ and 2𝑙 → 4𝑙′ subshells in Na-like through Ar-like tungsten have been revealed in the NIST EBIT spectra, while in the MaMFIT, DR resonances involving transitions between 2𝑙 → 3𝑙′ subshells in K-like through Ni-like iridium were seen. Detailed modeling of the observed spectra has been performed.
        Speaker: Dr Alexander Borovik (Justus-Liebig Universität Gießen)
      • 19:10
        Electron Dynamics in transient high E-Fields during Heavy –Ion Collisions 2h
        The heavy-ion storage ring CRYRING at GSI/FAIR is particularly suited to investigate the collision dynamics for very highly charged ions in the highly adiabatic and non-perturbative regime where the ratio of projectile charge state to projectile velocity qproj/vproj>>1. We will discuss electron/lepton spectroscopy for studying leptons as authentic and precise messengers from extreme fields in very heavy transient quasi-molecules: a) Resonant 1s to 1s electron transfer, e.g. in Xe54+ + Xe; via K-Auger electron –recoil ion time of flight (TOF) the impact parameter (b) dependence of the process can be determined and compared with recent ab initio calculations on oscillations in 1s to 1s transfer probabilities as function of b which arise from energy differences of involved quasi-molecular orbitals in these very heavy collision systems b) Electron nucleus bremsstrahlung (enBS) at the high energy tip of the bremsstrahlung spectrum; theory predicts deep relations of the very high asymmetry of the radiative electron capture to continuum (RECC) cusp peak to corresponding asymmetries in radiative electron capture to continuum and pair production. c) Near-threshold 1s ionization for slow collisions Zproj  Ztar in the presence of a large and dominant capture channel; here the precise molecular mechanism for promoting a 1s electron from the 1s molecular orbital up to the continuum threshold is still under open theoretical considerations. The angular distribution of corresponding electron continua as an experimental benchmark is highly desirable. d) The complete atomic fragmentation (i.e. complete stripping down to bare target ions) focusing on topologically stable multi-electron continua accompanying the fragmentation. The dominance of multiple over single electron continua is an unsolved challenge for theory. e) Kinematically complete (e,2e) collisions of iso- electronic sequences of H- and He like ions in inverse kinematics. The ab initio calculation of triple differential ionization cross sections (TDCS) for electron impact ionization of 1- and 2- electron atoms/ions has exhibited numerous open problems faced for the TDCS when a spectator electron is present; here benchmarks are urgently needed using TDCS for the isoelectronic sequences which accessible only in inverse kinematics in storage rings.
        Speaker: Siegbert Hagmann (GSI-Darmstadt)
      • 19:10
        Enhancement of radiative recombination of ions with low energy electrons in cold magnetized plasma 2h
        The radiative recombination (RR) is a one of the most important processes occurring in the interaction of highly charged ions with electrons. During the last decades the RR was actively studied in various aspects related to atomic and plasma physics, astrophysics, and accelerator physics. Recently, the RR of U92+ ions with electrons was studied in a subshell-selective manner by observing the emitted x-ray photons from recombination into the K and L shells at nonzero collision energies in an electron cooler. In this experiment the measured electron energy dependence of the RR rate coefficients was found to be sensitive to relativistic effects. The experiment yielded also hints for an enhancement of RR rate coefficients into the K and L shells, i.e., into low-n shells. This new state-selective experimental method is very promising for further experimental studies at CRYRING, for example, with more energy steps across and below the onset threshold of the RR enhancement.
        Speaker: Dr Dariusz Banas (Jan Kochanowski University)
      • 19:10
        High resolution von Hamos spectrometer for low energy x-rays spectroscopy at CRYRING 2h
        The structure of the few electrons heavy ions and the dynamics of the collisions of the ion with atoms can be precisely investigated by measurement of the radiation spectrum emitted in the electron-ion interaction. Detection of the radiation spectrum can be performed using conventional semiconductor detectors or high-resolution crystal spectrometers. However, as shown by the latest experimental results, very often only application of the crystal spectrometers allows to obtain the accuracy required to study many subtle effects such as relativistic effects and the higher-order QED effects. Here we will report on the development of high-resolution von Hamos type crystal spectrometer dedicated for low-energy x-rays measurement at CRYRING. The construction details and the main factors influencing the energy resolution and the efficiency of the spectrometer, such as: a crystal radius of curvature, a crystal size, a source size, and the spatial resolution of a detector will be discussed.
        Speaker: Dr Dariusz Banas (Jan Kochanowski University)
      • 19:10
        PEGASUS – A versatile spin-polarized electron target 2h
        We present PEGASUS, a versatile and mobile spin-polarized electron target designed, constructed and build at GSI. It consists of a laser diode driven bulk GaAs photocathode, extraction energies up to 10 keV and an electrostatical cylindrical bender turning the polarization angle. First results characterizing the beam parameters will be shown, as well as proposed experiments, focussing on the dissociation of molecular ions in storage rings through polarized electrons. Also, ideas for experiments with chiral molecules and H+3 will be presented.
        Speaker: Mr Daniel Schury (GSI, Darmstadt)
      • 19:10
        SiM-X: Silicon microcalorimeters for high-precision X-ray spectroscopy – Status and Perspectives 2h
        High-precision X-ray spectroscopy of highly-charged heavy ions is one of the established subjects within the program of SPARC. At CRYRING, such experiments profit from the low ion velocity, which minimizes systematic errors from correction of the Doppler shift. One prominent example is the investigation of the 1s Lamb Shift of hydrogen-like heavy ions. As a benchmark for a detector with larger solid angle, a new detector setup with a dry 3He/4He dilution refrigerator and an array of 32 detector pixels was installed at the ESR in the recent test beamtime in June 2016. The cryogenic system performed perfectly well. An energy resolution of around 150 eV at a X-ray energy of 30 keV was obtained, which allowed the observation of Lyman-alpha emission from hydrogen-like xenon ions with high precision. The contribution will present results from this test as well as perspectives for a detector with 100 detector pixels.
        Speaker: Saskia Kraft-Bermuth (I.Physics Institute, Justus-Liebig-University, Giessen, Germany)
      • 19:10
        Status of the precision high voltage divider for the electron cooler at CRYRING 2h
        The low energy storage ring CRYRING is currently being comissioned as the first storage ring for FAIR phase 0 at GSI. CRYRING features an electron cooler to cool stored ions and thus achieve a low momentum spread of the beam. To determine the velocity of the ions a precise knowledge of the electron cooler voltage is essential. In earlier measurements of hyperfine transitions in hydrogen- and lithiumlike ions at the Experimental Storage Ring (ESR), the limiting uncertainty was the voltage measurement. To minimize this uncertainty we construct a high-precision divider for voltages up to 35 kV which will be similar to the ultrahigh-precision dividers used at the KATRIN experiment. The accuracy of the divider will be in the low ppm range and will allow for measurement uncertainties in the <10 E-5 region. The characteristics of the final design and the current project status will be presented. This work is supported by BMBF under contract number 05P15PMFAA and HGS-Hire for Fair.
        Speaker: Mr Daniel Winzen (Institut für Kernphysik, WWU Münster)
      • 19:10
        Status report of the FISIC experimental program 2h
        With the FISIC project, we propose an experimental crossed-beam arrangement at SPIRAL2 facility to measure absolute cross-sections for fundamental atomic processes in the intermediate collision regime. In future, it is also planned to move the low-energy branch of the FISIC setup to CRYRING to perform experiments with heaviest ions. For the realization of such a challenging experimental project, many technical barriers have to be overcome. Among them are: the control and detection of the slow ion charge states, the purification system to prevent pollution from electron capture on the residual gas located just before the collision point in the low-energy beam line, the detection of high energy ions, the overlap between the two ion beams, the design of the collider chamber, the vacuum conditions, the stripping issue of intense ion beams. A status report on the different aspects of the FISIC program will be presented at the workshop.
        Speaker: Dr Ajit Kumar (Institut des Nanosciences de Paris, Sorbonne Universités UPMC Paris 6, 75252 Paris Cedex 05, France)
      • 19:10
        Study of the Ti-44(alpha,p)V-47 reaction at CRYRING 2h
        The radionuclide Ti44 is one of the few cosmogenic nuclei that were directly observed by satellite based gamma-ray observatories. It is produced in core collapse supernovae by the reaction Ca40(a,g)Ti44. The main reaction consuming Ti44 is Ti44(a,p)V47. The precise knowledge of both reaction rates is therefore crucial for the determination of the final amount of Ti44 produced in the supernova. Here we present the idea of measuring the reaction rate of the reaction Ti44(a,p)V47 at CRYRING at the Gamow window for core collapse supernovae. We propose the production of a beam of highly charged, off-line produced Ti44 (t1/2=60a) with an EBIT directly connected to CRYRING. The injected ions will be accelerated in CRYRING to energies of about 2.2 MeV/u and subsequently interact with helium atoms at the internal gas-jet target by interacting with a dense helium beam. The protons resulting from the alpha capture reaction will be detected with particle detectors downstream of the gas-jet target.
        Speaker: Oliver Forstner
      • 19:10
        VUV Fluorescence Spectrometry at Heavy-Ion Storage Rings 2h
        The collision of highly charged, heavy ions with atomic or molecular gas targets or free electrons causes a variety of reactions such as electronic excitation, ionization, radiative electron capture and, in the case of molecules, dissociation. These processes have an important role in Astrophysics, with solar wind as a source for highly charged ions that interact with cometary or atmospheric gases. Typically, these processes are followed by the emission of one or more fluorescence photons in the spectral range from visible light (VIS) to vacuum-ultraviolet radiation (VUV). A Seya-Namioka type spectrometer for the dispersion and detection of this fluorescence in the wavelength range between 35 nm and 180 nm for experiments at gas- and electron targets and electron coolers at the FAIR facility will be set up with the aim to investigate the state of the targets after interaction and also as an online tool for ion beam monitoring.
        Speaker: Dr Philipp Reiß (Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology, University of Kassel)
    • 09:00 10:35
      Talks: Session III Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
      Convener: Phil Woods (University of Edinburgh(UE-SP))
      • 09:00
        TBA (tentatively: Laser physics at CRYRING) 20m
        Speaker: Prof. Wilfried Noertershaeuser (TU Darmstadt)
      • 09:20
        Low-energy ion-atom/ion collisions in storage ring 20m
        Speaker: Alexandre Gumberidze (GSI, Darmstadt)
      • 09:40
        Search for NEEC with CRYRING@ESR 20m
        Speaker: Dr Yury Litvinov (GSI, Darmstadt)
      • 10:00
        A new CRYRING gasjet target 15m
        Speaker: Nikolaos Petridis (GSI, Darmstadt)
      • 10:15
        TBA (tentatively: Reaction microscopes in storage rings) 20m
        Speaker: Dr Markus Schöffler (Goethe-University, Frankfurt)
    • 10:35 11:05
      Coffee 30m KBW Foyer

      KBW Foyer

    • 11:05 12:45
      Talks: Session IV Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
      Convener: Prof. Dominique VERNHET (INSP- UMR CNRS 7588- UPMC- Sorbonne Universités)
      • 11:05
        Charge particle reaction studies for nuclear astrophysics on the CRYRING 20m
        The talk will discuss a new UHV chamber being developed for the CRYRING collaboration. The chamber is being designed to accommodate atomic and nuclear physics applications. The talk will focus on low energy (~MeVs/u) nuclear charge particle reaction studies applied to nuclear astrophysics research.
        Speakers: Phil Woods (University of Edinburgh(UE-SP)) , Dr Thomas Davinson (University of Edinburgh)
      • 11:25
        Radiation Biology Experiments at CRYRING 20m
        Speaker: Dr Radek Pleskac (GSI, Darmstadt)
      • 11:45
        XUV Photoionization of ions at CRYRING 20m
        Speaker: Jan Rothhardt (GSI, Darmstadt)
      • 12:05
        High-resolution spectroscopy of low-energy X-ray at CRYRING 20m
        Speaker: Dr Martino Trassinelli (Insitut des NanoSciences de Paris)
      • 12:25
        Micro-calorimeters for high resolution x-ray spectroscopy 20m
        Speaker: Dr Andreas Fleischmann (Uni Heidelberg)
    • 12:45 14:00
      Lunch 1h 15m GSI Canteen

      GSI Canteen

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
    • 14:00 15:25
      Talks: Session V Hörsaal KBW 1.017

      Hörsaal KBW 1.017

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
      Convener: Dr Frank Herfurth (GSI, Darmstadt)
      • 14:00
        Radiation effects in astrophysical ices and biomolecules 15m
        Astrophysical ices are exposed to ionic projectiles from galactic cosmic rays, Solar wind, shock waves or ions trapped in the magnetospheres of giant planets. Induced radiation effects include sputtering, amorphisation and compaction, dissociation of molecules, and formation of new molecular species after radiolysis and by implantation of reactive ions. We present recent results on radiolysis of astrophysical ices and on radio-resistance of biomolecules, with special emphasis on experiments with multiply charged ion beams. These experiments aim in particular at simulating the effects of cosmic rays on icy grains in dense molecular clouds, and on the formation of molecules on icy bodies in the Solar System [Rothard, Domaracka, Boduch, Palumbo, Strazzulla, da Silveira, Dartois, J. Phys. B: At. Mol. Opt. Phys. 50 (2017) 062001 (Topical Review) doi: 10.1088/1361-6455/50/6/062001].
        Speaker: Dr Hermann Rothard (CIMAP-Ganil CNRS)
      • 14:15
        Electron-Ion Collision Spectroscopy at CRYRING 20m
        Speaker: Stefan Schippers (JLU Giessen)
      • 14:35
        Relativistic calculations of differential ionization cross sections: Application to antiproton-hydrogen collisions 15m
        A new relativistic method based on the Dirac equation for calculating fully differential cross sections for ionization in ion-atom collisions is developed. The method is applied to ionization of the atomic hydrogen by antiproton impact, as a non-relativistic benchmark. The fully differential, as well as various doubly and singly differential cross sections for ionization are calculated. Several discrepancies in available theoretical predictions are resolved. The future extension of the method towards supporting experiments at GRYRING@ESR is discussed.
        Speaker: Mr Andrey Bondarev (St. Petersburg State University)
      • 14:50
        Overview of experiments at CRYRING 20m
        Speaker: Dr Michael Lestinsky (GSI, Darmstadt)
      • 15:10
        TBA (tentatively: SPARC and APPA at CRYRING) 15m
        Speaker: Prof. Reinhold Schuch (Stockholm university)
    • 15:25 16:15
      Coffee 50m GSI Foyer

      GSI Foyer

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany
    • 16:15 17:15
      Kolloquium: Joint session with GSI/FAIR Kolloquium Großer Hörsaal (SB1 1.201)

      Großer Hörsaal (SB1 1.201)

      GSI Helmholtzzentrum für Schwerionenforschung

      Planckstraße 1 64291 Darmstadt Germany

      Joint session with GSI-FAIR colloquium

      • 16:15
        The Stockholm years of CRYRING: Facility, research and the transition to CRYRING@ESR 1h
        The CRYRING is a small synchrotron and storage ring with electron cooling. Based on technology developed at the low-energy antiproton ring LEAR at CERN, it was initiated in the early 1980’s at the then Research Institute of Physics, AFI, (from 1988 Manne Siegbahn Institute and from 1993 Manne Siegbahn Laboratory, MSL, Stockholm University). It has been used for research with atomic and molecular ions at low energies during almost two decades 1992 – 2009. In the talk the CRYRING facility at The Manne Siegbahn Laboratory in Stockholm will be described. Some historical remarks will be given about the construction of an accelerator facility for research with atomic and molecular ions at low energies at a laboratory/institute by tradition dedicated to accelerator-based nuclear physics research. The talk will include a review of the research program at the CRYRING facility during the period 1992 - 2009 with some examples of the most recognized results. Finally some comments will be given about the transition of CRYRING from Stockholm to Darmstadt for new applications in the years to come in CRYRING@ESR and hopefully within some years in the future as the central low energy storage ring LSR in the FLAIR facility. CRYRING was dismounted in Stockholm and sent to GSI 2012/13 and has now been reassembled in the GSI Target Hall with some updates. The project is now gradually transiting into productive operation with commissioning presently ongoing. A vigorous and exciting proposed scientific program is in depth described in the publication “Physics book: CRYRING@ESR”, M. Lestinsky, Y. Litvinov and T. Stöhlker (Eds.), Eur. Phys. J. ST 225, 5 (2016). The project status will be celebrated and the diversity of the future experimental program will be previewed by presentations and posters at the workshop 24-25 April 2017 at GSI on the topic of "Research with CRYRING@ESR”.
        Speaker: Håkan Danared (European Spallation Source ERIC)