Probing single-particle ^{\mathrm{11}}C levels produced via the ^{\mathrm{10}}C(d,p) reaction

Matthew Baines; Dan Bardayan; Patrick O'malley; Sebastian Aguilar; Samuel Henderson; Scott Carmichael; Lauren Callahan; Chevelle Boomershine; Jacob Long; Drew Blankstein; Louis Caves; Tan Ahn; Maxime Brodeur; James Kolata; Gavin Lotay; Paul Stevenson

Probing single-particle $^{\mathrm{11}}$C levels produced via the $^{\mathrm{10}}$C(d,p) reaction

ORAL

Abstract

There has been tremendous progress in recent years using no-core shell-model approaches to calculate the low-lying level structures of light nuclei. Important constraints to such calculations come from the spectra of single-particle and single-hole states of nuclei near strongly bound spherical nuclei such as Carbon-12. While Carbon-11 has been studied by neutron removal from Carbon-12 and proton addition to Boron-10, the single-neutron states have never been directly probed. The (d,p) reaction on Carbon-10 was studied at the Notre Dame Nuclear Science Laboratory to probe these single-particle states. The experiment and preliminary data will be presented.

^*This work was supported by the National Science Foundation

Oct. 15, 2019, 11:06 AM – Oct. 15, 2019, 11:18 AM

Authors

Matthew Baines
- University of Notre Dame
Dan Bardayan
- University of Notre Dame
Patrick O'malley
- University of Notre Dame
Sebastian Aguilar
- University of Notre Dame
Samuel Henderson
- University of Notre Dame
Scott Carmichael
- University of Notre Dame
Lauren Callahan
- University of Notre Dame
Chevelle Boomershine
- University of Notre Dame
Jacob Long
- University of Notre Dame
Drew Blankstein
- University of Notre Dame
Louis Caves
- University of Notre Dame
Tan Ahn
- University of Notre Dame
Maxime Brodeur
- University of Notre Dame
James Kolata
- University of Notre Dame
Gavin Lotay
- University of Surrey
Paul Stevenson
- University of Surrey