The first in-beam reaction measurement at CRYRING@ESR using the CARME array

Jordan J. Marsh*, Carlo G. Bruno*, Thomas Davinson, Philip J. Woods, Zoran Andelkovic, Angela Brauning-Demian, Rui-Jui Chen, Sophia F. Dellmann, Philipp Erbacher, Svetlana Fedotova, Oliver Forstner, David Freire-Fernandez, Jan Glorius, Alexandre Gumberidze, Oscar Hall, Pierre-Michel Hillenbrand, Frank Herfurth, George Hudson-Chang, Anton Kalinin, Michael LestinskyYuri A. Litvinov, Esther B. Menz, Chiara Nociforo, Nikolaos Petridis, Athanasios Psaltis, Shahab Sanjari, Mariia Selina, Uwe Spillmann, Ragandeep S. Sidhu, Thomas Stohlker, Laszlo Varga, Gleb Vorobjev

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

In the last decade nuclear reaction measurements using heavy ion storage rings became an important tool for nuclear astrophysics studies. The new CRYRING Array for Reaction MEasurements (CARME), recently commissioned at the low energy CRYRING@ESR storage ring (GSI/FAIR), is designed to take this novel approach one step further and perform direct nuclear reaction measurements at stellar energies, as well as indirect studies of nuclear properties of interest for nuclear astrophysics. CRYRING is unique worldwide in being able to store high quality, isotopically pure, radioactive beams produced in-flight at the low energies required for nuclear astrophysics. This paper describes the first in-beam reaction measurement with CARME at CRYRING, the first beam on (conventional) target measurement for FAIR Phase-0, and the data analysis approach required by this unprecedented, unique experimental approach.
Original languageEnglish
Article number95
Pages (from-to)1-8
Number of pages8
JournalThe European Physical Journal A (EPJ A)
Volume60
DOIs
Publication statusPublished - 29 Apr 2024

Fingerprint

Dive into the research topics of 'The first in-beam reaction measurement at CRYRING@ESR using the CARME array'. Together they form a unique fingerprint.

Cite this