Atoms (Nov 2022)

First Experiments with CRYRING@ESR

  • Michael Lestinsky,
  • Esther Babette Menz,
  • Håkan Danared,
  • Claude Krantz,
  • Eva Lindroth,
  • Zoran Andelkovic,
  • Carsten Brandau,
  • Angela Bräuning-Demian,
  • Svetlana Fedotova,
  • Wolfgang Geithner,
  • Frank Herfurth,
  • Anton Kalinin,
  • Ingrid Kraus,
  • Uwe Spillmann,
  • Gleb Vorobyev,
  • Thomas Stöhlker

DOI
https://doi.org/10.3390/atoms10040141
Journal volume & issue
Vol. 10, no. 4
p. 141

Abstract

Read online

The low-energy heavy ion storage ring CRYRING was transported from Stockholm to Darmstadt, modernized and reconfigured, and recommissioned as CRYRING@ESR. The machine is now in operation with all installations in service and is available as a user facility for experiments proposed through the SPARC collaboration. During the 2020–2022 period, we brought a number of experimental installations into service and used them to measure first data: the ultra-cold electron cooler for merged-beam electron–ion collisions, the gas jet target for atomic collisions, a next-generation microcalorimeter-based X-ray spectroscopy setup, and others. Ions can be injected either in low charge states from a local ion source through a 300 keV/u RFQ linac, or in high charge states from the GSI accelerator chain through ESR. This allows for very broad access to ions across the entire periodic table. CRYRING@ESR is able to de- or accelerate ions and cool and store beams of isotopically pure species in a desired charge state. While the analysis is still largely ongoing, the first experimental data already show that the machine reached its expected performance level, and our high expectations regarding achievable resolution in spectroscopy experiments have been fulfilled. With access to new classes of ions available through ESR injection and a new generation of experimental instrumentation, CRYRING@ESR is a unique facility for experiments with heavy, highly charged ions. Here, we will review our present setup and machine performance, discuss the data from our first commissioning experiments and briefly preview the upcoming new installations for the coming years.

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