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Measurement of the ${}^{100}{Mo} (α, x n)$ cross section at weak $r$ -process energies

https://doi.org/10.1103/PhysRevC.105.055803

Ong, W.-J. ; Avila, M. L. ; Mohr, P. ; Rehm, K. E. ; Santiago-Gonzalez, D. ; Chen, J. ; Hoffman, C. R. ; Meisel, Z. ; Montes, F. ; Pereira, J. ( May 2022 , Physical Review C)

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Improved nuclear physics near $A = 61$ refines urca neutrino luminosities in accreted neutron star crusts

https://doi.org/10.1103/PhysRevC.105.025804

Meisel, Z. ; Hamaker, A. ; Bollen, G. ; Brown, B. A. ; Eibach, M. ; Gulyuz, K. ; Izzo, C. ; Langer, C. ; Montes, F. ; Ong, W.-J ; et al ( February 2022 , Physical Review C)

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The Impact of Neutron Transfer Reactions on the Heating and Cooling of Accreted Neutron Star Crusts

https://doi.org/10.3847/1538-4357/ac4271

Schatz, H. ; Meisel, Z. ; Brown, E. F. ; Gupta, S. S. ; Hitt, G. W. ; Hix, W. R. ; Jain, R. ; Lau, R. ; Möller, P. ; Ong, W. -J. ; et al ( February 2022 , The Astrophysical Journal)

Abstract
Nuclear reactions heat and cool the crust of accreting neutron stars and need to be understood to interpret observations of X-ray bursts and long-term cooling in transiently accreting systems. It was recently suggested that previously ignored neutron transfer reactions may play a significant role in the nuclear processes. We present results from full nuclear network calculations that now include these reactions and determine their impact on crust composition, crust impurity, heating, and cooling. We find that a large number of neutron transfer reactions indeed occur and impact crust models. In particular, we identify a new type of reaction cycle that brings a pair of nuclei across the nuclear chart into equilibrium via alternating neutron capture and neutron release, interspersed with a neutron transfer. While neutron transfer reactions lead to changes in crust model predictions and need to be considered in future studies, previous conclusions concerning heating, cooling, and compositional evolution are remarkably robust.

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Crossing $N = 28$ Toward the Neutron Drip Line: First Measurement of Half-Lives at FRIB

https://doi.org/10.1103/PhysRevLett.129.212501

Crawford, H. L. ; Tripathi, V. ; Allmond, J. M. ; Crider, B. P. ; Grzywacz, R. ; Liddick, S. N. ; Andalib, A. ; Argo, E. ; Benetti, C. ; Bhattacharya, S. ; et al ( November 2022 , Physical Review Letters)

Free, publicly-accessible full text available November 14, 2023
Total absorption spectroscopy of the $β$ decay of ${}^{101, 102}{Zr}$ and ${}^{109}{Tc}$

https://doi.org/10.1103/PhysRevC.103.025810

Dombos, A. C. ; Spyrou, A. ; Naqvi, F. ; Quinn, S. J. ; Liddick, S. N. ; Algora, A. ; Baumann, T. ; Brett, J. ; Crider, B. P. ; DeYoung, P. A. ; et al ( February 2021 , Physical Review C)

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$β$ Decay of ${}^{61}V$ and its Role in Cooling Accreted Neutron Star Crusts

https://doi.org/10.1103/PhysRevLett.125.262701

Ong, W.-J. ; Brown, E. F. ; Browne, J. ; Ahn, S. ; Childers, K. ; Crider, B. P. ; Dombos, A. C. ; Gupta, S. S. ; Hitt, G. W. ; Langer, C. ; et al ( December 2020 , Physical Review Letters)

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Exploiting Isospin Symmetry to Study the Role of Isomers in Stellar Environments

https://doi.org/10.1103/PhysRevLett.126.042701

Hallam, S. ; Lotay, G. ; Gade, A. ; Doherty, D. T. ; Belarge, J. ; Bender, P. C. ; Brown, B. A. ; Browne, J. ; Catford, W. N. ; Elman, B. ; et al ( January 2021 , Physical Review Letters)

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Horizons: nuclear astrophysics in the 2020s and beyond

https://doi.org/10.1088/1361-6471/ac8890

Schatz, H. ; Becerril Reyes, A. D. ; Best, A. ; Brown, E. F. ; Chatziioannou, K. ; Chipps, K. A. ; Deibel, C. M. ; Ezzeddine, R. ; Galloway, D. K. ; Hansen, C. J. ; et al ( November 2022 , Journal of Physics G: Nuclear and Particle Physics)

Abstract
Nuclear astrophysics is a field at the intersection of nuclear physics and astrophysics, which seeks to understand the nuclear engines of astronomical objects and the origin of the chemical elements. This white paper summarizes progress and status of the field, the new open questions that have emerged, and the tremendous scientific opportunities that have opened up with major advances in capabilities across an ever growing number of disciplines and subfields that need to be integrated. We take a holistic view of the field discussing the unique challenges and opportunities in nuclear astrophysics in regards to science, diversity, education, and the interdisciplinarity and breadth of the field. Clearly nuclear astrophysics is a dynamic field with a bright future that is entering a new era of discovery opportunities.

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Status of the JENSA gas-jet target for experiments with rare isotope beams

https://doi.org/10.1016/j.nima.2018.09.052

Schmidt, K. ; Chipps, K.A. ; Ahn, S. ; Bardayan, D.W. ; Browne, J. ; Greife, U. ; Meisel, Z. ; Montes, F. ; O’Malley, P.D. ; Ong, W-J. ; et al ( December 2018 , Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment)

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Mass measurement of ${}^{51}{Fe}$ for the determination of the ${}^{51}{Fe} (p, γ) {}^{52}{Co}$ reaction rate

https://doi.org/10.1103/PhysRevC.98.065803

Ong, W. -J. ; Valverde, A. A. ; Brodeur, M. ; Bollen, G. ; Eibach, M. ; Gulyuz, K. ; Hamaker, A. ; Izzo, C. ; Puentes, D. ; Redshaw, M. ; et al ( December 2018 , Physical Review C)

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