Nuclear Force Imprints Revealed on the Elastic Scattering of Protons with C10

Authors :: Barry Davids
G. Hackman
Gary D. Christian
Sofia Quaglioni
Jennifer Fallis
A. C. Shotter
A. T. Laffoley
C. Unsworth
Jérémy Dohet-Eraly
J.C. Lighthall
E. T. Rand
A. T. Gallant
A. Kumar
Guillaume Hupin
Petr Navrátil
Martín Alcorta
Angelo Calci
D. Miller
A. Rojas
Junji Tanaka
V. Bildstein
S. Ishimoto
J. S. Randhawa
Robert Roth
Isao Tanihata
Rituparna Kanungo
A. Sanetullaev
R. Krücken
Baharak Hadinia
Source :: Physical Review Letters. 118
Publication Year :: 2017
Publisher :: American Physical Society (APS), 2017.
Abstract: How does nature hold together protons and neutrons to form the wide variety of complex nuclei in the Universe? Describing many-nucleon systems from the fundamental theory of quantum chromodynamics has been the greatest challenge in answering this question. The chiral effective field theory description of the nuclear force now makes this possible but requires certain parameters that are not uniquely determined. Defining the nuclear force needs identification of observables sensitive to the different parametrizations. From a measurement of proton elastic scattering on ^{10}C at TRIUMF and ab initio nuclear reaction calculations, we show that the shape and magnitude of the measured differential cross section is strongly sensitive to the nuclear force prescription.