A Novel Approach to Direct (p,n) Reaction Measurements of Astrophysical Interest with SECAR.

Pelagia Tsintari; Nikolaos Dimitrakopoulos; Ruchi Garg; Kirby Hermansen; Caleb A Marshall; Fernando Montes; Georgios Perdikakis; Hendrik Schatz; Kiana Setoodehnia; Honey Arora; Georg P Berg; Jeff C Blackmon; Carl Richard Brune; Kelly A. Chipps; Manoel Couder; Catherine M Deibel; Ashley A Hood; Cavan A Maher; Sara Miskovitch; Jorge Pereira; Thomas Ruland; Michael S. Smith; Louis Wagner; Remco G.T. Zegers

A Novel Approach to Direct (p,n) Reaction Measurements of Astrophysical Interest with SECAR.

ORAL

Abstract

Low energy (p,n) and (n,p) reactions on unstable nuclei affect the synthesis of heavy elements in core-collapse supernovae, especially during explosive silicon burning and the $\nu$p-process. The SECAR recoil separator was recently constructed at FRIB to directly measure astrophysical reactions with unstable nuclei in inverse kinematics when the reaction product and the beam differ in mass. However, using a machine-learning-based approach, combining a multi-objective evolutionary algorithm with ion-optical simulations, a sufficient beam rejection rate is achieved, enabling the measurement of (p,n) reactions, despite the nearly equivalent masses involved. This novel technique was verified via the stable-beam $^{58}$Fe(p,n)$^{58}$Co reaction measurement, and the new cross-section resulted at 20.3 ± 6.3 mb at the energy of 3.66 ± 0.12 MeV/u. Statistical model predictions yielded overall higher cross-section values, though exhibit a strong dependence on the optical model potential used. The new technique is expected to be used with radioactive beams, allowing direct low-energy (p,n) reaction measurements on short-lived nuclei of astrophysical importance.

^*This work is supported by the U.S. Department of Energy, Office of Science, Nuclear Physics program under Award Numbers DE-SC-0022538 (CMU), DE-SC-0014384 (SECAR), and by the National Science Foundation under award numbers PHY-1624942 (SECAR), PHY-2209429, PHY-1102511 (NSCL) and PHY-1430152 (JINA-CEE), OISE-1927130 (IReNA).

Oct. 8, 2024, 9:42 AM – Oct. 8, 2024, 9:54 AM

Presenters

Pelagia Tsintari
- Central Michigan University

Authors

Pelagia Tsintari
- Central Michigan University
Nikolaos Dimitrakopoulos
- Central Michigan University
Ruchi Garg
- Michigan State University
Kirby Hermansen
- Michigan State University
Caleb A Marshall
- Ohio University
- UNC-CH/TUNL
Fernando Montes
- Facility for Rare Isotope Beams
Georgios Perdikakis
- Central Michigan University
Hendrik Schatz
- Michigan State University
Kiana Setoodehnia
- Facility for Rare Isotope Beams
Honey Arora
- Central Michigan University
Georg P Berg
- University of Notre Dame
Jeff C Blackmon
- Louisiana State University
Carl Richard Brune
- Ohio University
Kelly A. Chipps
- Oak Ridge National Laboratory, Oak Ridge, TN, USA / Department of Physics and Astronomy, University of Tennessee, Knoxville, TN, USA
- Oak Ridge National Laboratory / University of Tennessee-Knoxville
- Oak Ridge National Laboratory
Manoel Couder
- University of Notre Dame
Catherine M Deibel
- Louisiana State University
Ashley A Hood
- Louisiana State University
Cavan A Maher
- Michigan State University
Sara Miskovitch
- Stanford Linear Accelerator Center
- Michigan State University
Jorge Pereira
- FRIB
- Michigan State University
Thomas Ruland
- Louisiana State University
Michael S. Smith
- Oak Ridge National Laboratory
Louis Wagner
- Michigan State University
Remco G.T. Zegers
- Michigan State University