Experiments for a number of research fields are planned utilizing the low-energy heavy-ion stored beams available at CRYRING@ESR. These experiments perform spectroscopy in unprecentented resolution in the strong-field domain, study atomic or nuclear processes in slow collisions, derive relevant data for modelling astrophysical plasma, or induce modifications of materials surfaces and biological tissue samples. The "Physics book" lays out a number fo foreseen experiments in more detail.
Most experiments plan for using ions from the GSI accelerator chain through ESR, providing intense beams of highly charged ions, and that is indeed the raison d'être for the CRYRING@ESR project at all, as it operates in a worldwide unique range of energy, charge state, and intensity. Nevertheless, for e.g. technological tests of new detector developments or for some selected experiments, the local RFQ beamline may be used as a alternative injection path, even though it serves a strongly limited reach in energy, intensity and available ion species.
A procedure for applying for beamtimes that utilize ion beams injected only from the local RFQ beamline is presently still under discussion.
The CRYRING@ESR Users community is open to every scientist who would like to participate in performing experiments here. We have created a mailinglist and invite to open discussions regarding all experimental matters at this facility. To sign up, please follow the directions on the mailinglist web interface.
If you have trouble with the sign-up, feel free to contact us.
The CRYRING@ESR Users community meets at GSI regularly once a month for coordination of experiment planning, preparations, setup and results. The meeting takes place on the third Friday of the month, starting at 11:00 in room KBW 2.28. Invitations are sent out through our mailinglist.
- Physics book: CRYRING@ESR, Eur. Phys. J. Spec. Top. (2016) 225:797
Technical reports for CRYRING@ESR experiments:
- Experimental Instrumentation of CRYRING@ESR (accepted TDR, 2015)
- CRY-RIMS - CRYRING-Cold Target Recoil Ion Momentum Spectroscopy (accepted TDR, 2018)
- CRYRING Internal Jet Target (accepted TDR, 2018)
- In-ring Spectrometer for Nuclear Reaction Studies at CRYRING (accepted TDR, 2018)