Constraining the 76,77Zn neutron capture reactions via the β-Oslo method

Erin C Good; Hannah C. C Berg; Katherine L Childers; Alexander C Dombos; Caley Harris; Rebecca Lewis; Sean N Liddick; Stephanie Lyons; Alicia Palmisano; Debra Richman; Mallory K Smith; Artemis Spyrou; Antonius W Torode; Remco G Zegers; Adriana Sweet; Darren L Bleuel; Nicholas D Scielzo; Benjamin P Crider; Anna Simon

Constraining the <sup>76,77</sup>Zn neutron capture reactions via the β-Oslo method

ORAL

Abstract

Neutron capture reactions far from stability are important to a number of astrophysical nucleosynthesis processes, such as the r- and i-processes. These processes are responsible for the creation of the majority of the neutron-rich heavy elements, but they are not yet fully understood. This is because of incomplete nuclear data in this region due to the difficulty in creating both neutron and exotic radioactive ion beams. The β-Oslo method uses β decay to populate highly excited nuclear states in the compound nucleus of interest and is used to extract the nuclear level densities (NLD) and gamma-ray strength functions (γSF) from the decay of these states. These experimentally-determined properties reduce uncertainties in theoretical neutron capture rates. I will specifically discuss the β decay of ^76,77Cu and the implementation of the β-Oslo method to reduce uncertainties in the current ^76,77Zn(n,γ) reaction rates. These particular reactions are both in the mass region important for the weak r-process.

Oct. 13, 2021, 10:42 AM – Oct. 13, 2021, 10:54 AM

Presenters

Erin C Good
- FRIB
- FRIB, East Lansing, MI.

Authors

Erin C Good
- FRIB
- FRIB, East Lansing, MI.
Hannah C. C Berg
- FRIB
Katherine L Childers
- Michigan State University, NSCL/FRIB
- Michigan State University
- National Superconducting Cyclotron Laboratory; Michigan State University
- FRIB
Alexander C Dombos
- University of Notre Dame
- FRIB
Caley Harris
- Michigan State University, NSCL/FRIB
- Michigan State University
- FRIB
Rebecca Lewis
- Michigan State University, NSCL/FRIB
- Michigan State University
- National Superconducting Cyclotron Laboratory; Michigan State University
- FRIB
Sean N Liddick
- National Superconducting Cyclotron Laboratory
- Michigan State University, NSCL/FRIB
- NSCL
- National Superconducting Cyclotron Laboratory; Department of Chemistry, Michigan State University
- Michigan State University
- National Superconducting Cyclotron Laboratory; Michigan State University
- FRIB
Stephanie Lyons
- Pacific Northwest National Laboratory
- Michigan State University
- National Superconducting Cyclotron Laboratory; Michigan State University
- FRIB
Alicia Palmisano
- Michigan State University, NSCL/FRIB
- Michigan State University
- UTK
- FRIB
- University of Tennessee
Debra Richman
- Michigan State University, NSCL/FRIB
- FRIB
Mallory K Smith
- Michigan State University, NSCL/FRIB
- National Superconducting Cyclotron Laboratory; Michigan State University
- FRIB
- Michigan State University
- NSCL
Artemis Spyrou
- Michigan State University
- Michigan State University, NSCL/FRIB
- FRIB
Antonius W Torode
- FRIB
Remco G Zegers
- Michigan State University
- FRIB
Adriana Sweet
- Lawrence Livermore Natl Lab
- University of California, Berkeley
Darren L Bleuel
- Lawrence Livermore Natl Lab
Nicholas D Scielzo
- Lawrence Livermore Natl Lab
- Lawrence Livermore National Laboratory
Benjamin P Crider
- Mississippi State Univ
- Mississippi State University
- Department of Physics and Astronomy, Mississippi State University
Anna Simon
- University of Notre Dame