Comprehensive Study of d + ⁶Li via observing simultaneous outgoing neutrons, 𝛾 rays, and charged particles

Authors

S. N. Paneru, Los Alamos National Laboratory
H. Y. Lee, Los Alamos National Laboratory
C. Prokop, Los Alamos National Laboratory
S. A. Kuvin, Los Alamos National Laboratory
C. Fichtl, Los Alamos National Laboratory
P. Gastis, Los Alamos National Laboratory
G. M. Hale, Los Alamos National Laboratory
E. Leal-Cidoncha, Los Alamos National Laboratory
M. Mosby, Los Alamos National Laboratory
M. Paris, Los Alamos National Laboratory
Michael T. Febbraro, Air Force Institute of TechnologyFollow
T. T. King, Oak Ridge National Laboratory
J. Nattress, Oak Ridge National Laboratory
T. J. Ruland, Oak Ridge National Laboratory
R. J. deBoer, University of Notre Dame
E. Stech, University of Notre Dame
T. Bailey, University of Notre Dame
C. Boomershine, University of Notre Dame
S. Carmichael, University of Notre Dame
A. Clark, University of Notre Dame
R. Fang, University of Notre Dame
J. Gorres, University of Notre Dame
R. Kelmar, University of Notre Dame
K. Lee, University of Notre Dame
K. Manukyan, University of Notre Dame
M. Matney, University of Notre Dame
J. McDonaugh, University of Notre Dame
A. Miller, University of Notre Dame
A. Nelson, University of Notre Dame
P. O'Malley, University of Notre Dame
D. Robertson, University of Notre Dame
_ Shahina, University of Notre Dame
W.. Tan, University of Notre Dame
W. W. von Seeger, University of Notre Dame
M. Wiescher, University of Notre Dame
A. Roberts, University of Colorado

Document Type

Article

Publication Date

10-10-2024

Abstract

Deuteron-induced reactions on⁶Li are important for nuclear structure studies and nuclear ap-plications. A new experimental effort was dedicated to improve incomplete partial cross sections and the angular distribution information for d+⁶Li reactions and, to address the inconsistencies between various R-matrix evaluations of the8Be system. The new measurements were performed over a deuteron energy range of 1.8 to 10 MeV with an angular distribution coverage of 20°– 170° for outgoing particles. The experiment simultaneously measured neutrons, charged particles, andγ-rays from the various exit channels of the d+⁶Li reaction. The cross sections for open reaction channels measured simultaneously are presented. In addition, results for the ⁶Li(d,n)⁷Be total cross section using the activation method are also presented.

Comments

©2024 American Physical Society

Plain-text title form: Comprehensive study of d + Li 6 via observing simultaneous outgoing neutrons, γ rays, and charged particles.

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Funding notes: This work was performed under the National Nuclear Security Administration of the U.S. Department of Energy at Los Alamos National Laboratory under Contract No. 89233218CNA000001. This work benefits from the LANSCE accelerator facility and the Institute for Structure and Nuclear AstroPhysics (ISNAP) at the University of Notre Dame. This research utilized resources from the Notre Dame Center for Research Computing and was supported by the National Science Foundation through Grants No. PHY-2011890 and No. PHY-2310059 (University of Notre Dame Nuclear Science Laboratory) and Grant No. PHY-1430152 (the Joint Institute for Nuclear Astrophysics–Center for the Evolution of the Elements).

DOI

10.1103/PhysRevC.110.044603

Source Publication

Physical Review C (ISSN 2469-9985 | eISSN 2469-9993)

Recommended Citation

Paneru, S. N., et al. “Comprehensive Study of d + Li 6 via Observing Simultaneous Outgoing Neutrons, γ Rays, and Charged Particles.” Physical Review C, vol. 110, no. 4, Oct. 2024, p. 044603, https://doi.org/10.1103/PhysRevC.110.044603.