Storage, Accumulation and Deceleration of Secondary Beams for Nuclear Astrophysics

Storage, Accumulation and Deceleration of Secondary Beams for Nuclear Astrophysics

Low-energy investigations on rare ion beams are often limited by the available intensity and purity of the ion species in focus. Here, we present the first application of a technique that combines in-flight production at relativistic energies with subsequent secondary beam storage, accumulation and...

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Veröffentlicht in:arXiv.org 2023-05
Hauptverfasser: Glorius, J, Litvinov, Yu A, Aliotta, M, Amjad, F, Brückner, B, Bruno, C G, Chen, R, Davinson, T, Dellmann, S F, Dickel, T, Dillmann, I, Erbacher, P, stner, O, Geissel, H, Griffin, C J, Grisenti, R, Gumberidze, A, Haettner, E, Hess, R, P -M Hillenbrand, Hornung, C, Joseph, R, Jurado, B, Kazanseva, E, Knöbel, R, Kostyleva, D, Kozhuharov, C, Kuzminchuk, N, Langer, C, Leckenby, G, Lederer-Woods, C, Lestinsky, M, Litvinov, S, Löher, B, Lorenz, B, Lorenz, E, Marsh, J, Menz, E, Morgenroth, T, Mukha, I, Petridis, N, Popp, U, Psaltis, A, Purushothaman, S, Reifarth, R, Rocco, E, Roy, P, Sanjari, M S, Scheidenberger, C, Sguazzin, M, Sidhu, R S, Spillmann, U, Steck, M, Stöhlker, T, Swartz, J A, Tanaka, Y K, Törnqvist, H, Varga, L, Vescovi, D, Weick, H, Weigand, M, Woods, P J, Yamaguchi, T, Zhao, J
Format: Artikel
Sprache:eng
Schlagworte:
Accumulation
Deceleration
Ion beams
Nuclear astrophysics
Nuclear capture
Nuclear physics
Physics - Instrumentation and Detectors
Physics - Nuclear Experiment
Purity
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Beschreibung
Zusammenfassung:Low-energy investigations on rare ion beams are often limited by the available intensity and purity of the ion species in focus. Here, we present the first application of a technique that combines in-flight production at relativistic energies with subsequent secondary beam storage, accumulation and finally deceleration to the energy of interest. Using the FRS and ESR facilities at GSI, this scheme was pioneered to provide a secondary beam of \(^{118}\)Te\(^{52+}\) for the measurement of nuclear proton-capture at energies of 6 and 7 MeV/u. The technique provided stored beam intensities of about \(10^6\) ions at high purity and brilliance, representing a major step towards low-energy nuclear physics studies using rare ion beams.
ISSN:2331-8422
DOI:10.48550/arxiv.2305.17142