Alpha Cluster States in ^{12}C and ^{16}O

Bryce Frentz; Armen Gyurjinyan; Ethan Sauer; Wanpeng Tan; Anthony Battaglia; Andrew Nystrom; Clark Casarella; Mallory Smith; Patrick O'Malley; Scott Marley; Sabrina Strauss; Andre Bermundez-Perez; Benjamin Guerin; Patrick Fasano; Ani Aprahamian; Michael Febbraro; Ram\'{o}n Torres-Isea; Frederick Becchetti; Martin Freer; Gvirol Goldring

Alpha Cluster States in $^{12}$C and $^{16}$O

ORAL

Abstract

The reaction $^{13}$C($\alpha$, n)$^{16}$O and the subsequent breakup of $^{16}$O was measured the University of Notre Dame Nuclear Science Laboratory in order to explore the $\alpha$-cluster states above the $4\alpha$ decay threshold in $^{16}$O. The charged particles were detected using four double-side strip detectors with 256 total channels and 12 deuterated liquid scintillators were used to detect neutrons. Locating and understanding these states is crucial in understanding the stellar evolution and the CNO cycle. Details of the experimental setup, data analysis, and preliminary results will be presented.

^*This work was supported by the National Science Foundation under Grants PHY-1419765 and PHY-0969456.

Nov. 21, 2015, 10:30 AM – Nov. 21, 2015, 10:42 AM

Authors

Bryce Frentz
- Univ of Notre Dame
Armen Gyurjinyan
- Univ of Notre Dame
Ethan Sauer
- Univ of Notre Dame
Wanpeng Tan
- Univ of Notre Dame
Anthony Battaglia
- Univ of Notre Dame
Andrew Nystrom
- Univ of Notre Dame
Clark Casarella
- Univ of Notre Dame
Mallory Smith
- Univ of Notre Dame
Patrick O'Malley
- Univ of Notre Dame
Scott Marley
- Univ of Notre Dame
Sabrina Strauss
- Univ of Notre Dame
Andre Bermundez-Perez
- Univ of Notre Dame
Benjamin Guerin
- Univ of Notre Dame
Patrick Fasano
- Univ of Notre Dame
Ani Aprahamian
- Univ of Notre Dame
Michael Febbraro
- Oak Ridge National Laboratory
Ram\'{o}n Torres-Isea
- Univ of Michigan
Frederick Becchetti
- Univ of Michigan
Martin Freer
- Univ of Birmingham
Gvirol Goldring
- Weizmann Institute