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3. Neutron transfer reactions on the ground state and isomeric state of a 130Sn beam

Author

K. L. Jones, A. Bey, S. Burcher, J. M. Allmond, A. Galindo-Uribarri, D. C. Radford, S. Ahn, A. Ayres, D. W. Bardayan, J. A. Cizewski, R. F. Garcia Ruiz, M. E. Howard, R. L. Kozub, J. F. Liang, B. Manning, M. Matos, C. D. Nesaraja, P. D. O'Malley, E. Padilla-Rodal, S. D. Pain, S. T. Pittman, A. Ratkiewicz, K. T. Schmitt, M. S. Smith, D. W. Stracener, and R. L. Varner

Subjects
FOS: Physical sciences, Nuclear Experiment (nucl-ex), Nuclear Experiment
Abstract

The structure of nuclei around the neutron-rich nucleus 132Sn is of particular interest due to the vicinity of the Z = 50 and N = 82 shell closures and the r-process nucleosynthetic path. Four states in 131Sn with a strong single-particle-like component have previously been studied via the (d,p) reaction, with limited excitation energy resolution. The 130Sn(9Be,8Be)131Sn and 130Sn(13C,12C)131Sn single-neutron transfer reactions were performed in inverse kinematics at the Holifield Radioactive Ion Beam Facility using particle-gamma coincidence spectroscopy. The uncertainties in the energies of the single-particle-like states have been reduced by more than an order of magnitude using the energies of gamma rays. The previous tentative Jpi values have been confirmed. Decays from high-spin states in 131Sn have been observed following transfer on the isomeric component of the 130Sn beam. The improved energies and confirmed spin-parities of the p-wave states important to the r-process lead to direct-semidirect cross-sections for neutron capture on the ground state of 130Sn at 30 keV that are in agreement with previous analyses. A similar assessment of the impact of neutron-transfer on the isomer would require significant nuclear structure and reaction theory input. There are few measurements of transfer reaction on isomers, and this is the first on an isomer in the 132Sn region., Comment: 7 pages, 4 figures

Published
2022
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4. Use of Bayesian Optimization to Understand the Structure of Nuclei

Author

J. Hooker, J. Kovoor, K.L. Jones, R. Kanungo, M. Alcorta, J. Allen, C. Andreoiu, L. Atar, D.W. Bardayan, S.S. Bhattacharjee, D. Blankstein, C. Burbadge, S. Burcher, W.N. Catford, S. Cha, K. Chae, D. Connolly, B. Davids, N. Esker, F.H. Garcia, S. Gillespie, R. Ghimire, A. Gula, G. Hackman, S. Hallam, M. Hellmich, J. Henderson, M. Holl, P. Jassal, S. King, T. Knight, R. Kruecken, A. Lepailleur, J. Liang, L. Morrison, P.D. O’Malley, S.D. Pain, X. Pereira-Lopez, A. Psaltis, A. Radich, A.C. Shotter, M. Vostinar, M. Williams, and O. Workman

Subjects
Nuclear and High Energy Physics, Direct reaction, FOS: Physical sciences, Transfer reaction, 01 natural sciences, Atomic, Stable ion beam, Particle and Plasma Physics, Affordable and Clean Energy, 0103 physical sciences, Nuclear, Nuclear Experiment (nucl-ex), 010306 general physics, Instrumentation, Nuclear Experiment, Bayesian optimization, Applied Physics, 010308 nuclear & particles physics, Low-energy reactions, Geant4 simulation, Molecular, Computational Physics (physics.comp-ph), Geochemistry, Interdisciplinary Engineering, Radioactive ion beam, Physics - Computational Physics
Abstract

Monte Carlo simulations are widely used in nuclear physics to model experimental systems. In cases where there are significant unknown quantities, such as energies of states, an iterative process of simulating and fitting is often required to describe experimental data. We describe a Bayesian approach to fitting experimental data, designed for data from a $^{12}$Be(d,p) reaction measurement, using simulations made with GEANT4. Q-values from the $^{12}$C(d,p) reaction to well-known states in $^{13}$C are compared with simulations using BayesOpt. The energies of the states were not included in the simulation to reproduce the situation for $^{13}$Be where the states are poorly known. Both cases had low statistics and significant resolution broadening owing to large proton energy losses in the solid deuterium target. Excitation energies of the lowest three excited states in $^{13}$C were extracted to better than 90 keV, paving a way for extracting information on $^{13}$Be., 8 pages, 6 figures

Published
2021

5. WITHDRAWN: The Lāpaki γ-γ array

Author

A.S. Tamashiro, J.T. Harke, J.G. Duarte, Y. Mishnayot, S. Burcher, N. Harward, K. Roberts, S. Menn, T.M. Story, S. Reese, S. Smith, L.D. Minc, W. Loveland, V.L. Adriatico, B.A. Konstanczer, S.L. Weidenbenner, N. Wiltbank, M. Branco-Katcher, C. Kulah, R. Schickler, and C.J. Palmer

Subjects
Nuclear and High Energy Physics, Instrumentation
Published
2022

6. Cross-section measurements to low-lying excited final states in the Mg24(α,p)Al*27(γ) reaction as an energy source for x-ray bursts

Author

C. Thornsberry, S. Burcher, Karl Smith, Carl R. Brune, S. L. Henderson, K. T. Macon, K. Y. Chae, Richard deBoer, D. W. Bardayan, K. L. Jones, Robert Grzywacz, Maxime Renaud, Shea Mosby, B. Vande Kolk, Patrick O'Malley, Michael Wiescher, Khachatur V. Manukyan, A. Boeltzig, Sebastian Aguilar, Tan Ahn, and Jerome Kovoor

Subjects
Physics, Nuclear reaction, Degree (graph theory), 010308 nuclear & particles physics, Astrophysics::High Energy Astrophysical Phenomena, Type (model theory), 01 natural sciences, Excited state, 0103 physical sciences, Production (computer science), Sensitivity (control systems), Atomic physics, 010306 general physics, Energy source, Energy (signal processing)
Abstract

Energy production in Type Ia x-ray bursts depends on a number of nuclear reactions that become efficient in a hot environment (up to 2 GK). Model sensitivity studies have been performed in an effort to better identify the reactions that have the largest effect, but these efforts are hampered by the high level of complexity of the astrophysical model and large nuclear physics uncertainties. In a recent study, the $^{24}\mathrm{Mg}(\ensuremath{\alpha},p)^{27}\mathrm{Al}$ reaction was found to significantly affect the energy generation in x-ray bursts. This manuscript reports the first study of the $^{24}\mathrm{Mg}(\ensuremath{\alpha},{p}_{1,2}\ensuremath{\gamma})^{27}\mathrm{Al}$ reaction at energies relevant for x-ray bursts. The branches to the $^{27}\mathrm{Al}$ excited states increase to a small degree the estimates of the total astrophysical $^{24}\mathrm{Mg}(\ensuremath{\alpha},p)^{27}\mathrm{Al}$ reaction rate.

Published
2020

7. Precision Measurements of the \(^{24}\text{Mg}(\alpha ,p\gamma )^{27}\text{Al}\) and \(^{27}\text{Al}(p,\alpha \gamma )^{24}\text{Mg}\) Cross Sections

Author

K. T. Macon, Patrick O'Malley, D. W. Bardayan, B. Vande Kolk, S. Moylan, K. L. Jones, Richard deBoer, Jerome Kovoor, S. Jin, Maxime Renaud, Khachatur V. Manukyan, K. Y. Chae, Tan Ahn, A. Boeltzig, Michael Wiescher, Karl Smith, Carl R. Brune, Wanpeng Tan, S. L. Henderson, Sebastian Aguilar, L. Morales, Shea Mosby, S. Burcher, and Ashabari Majumdar

Subjects
Chemistry, Radiochemistry, Alpha (ethology)
Published
2020

8. γ -ray spectroscopy of astrophysically important states in Ca39

Author

H. Sims, S. Burcher, J. Hu, Eunji Lee, Jacob Allen, G. L. Wilson, C. L. Jiang, Wanpeng Tan, S. M. Cha, M. R. Hall, T.R. Baugher, Paul Thompson, K.L. Jones, M. P. Carpenter, R. L. Varner, A. D. Ayangeakaa, Andrew Ratkiewicz, Kelly Chipps, Patrick O'Malley, Bertis Rasco, Sunghoon Ahn, O. Hall, J. A. Cizewski, S. D. Pain, K. Y. Chae, C. Thornsberry, A. Lepailleur, J. C. Blackmon, David Walter, J. T. Anderson, Karl Smith, Michael Febbraro, D. W. Bardayan, Daniel Santiago-Gonzalez, S. Ota, D. Seweryniak, and S. Zhu

Subjects
Physics, Atomic physics, Spectroscopy
Published
2020

9. First data with the Hybrid Array of Gamma Ray Detector (HAGRiD)

Author

Karl Smith, A. B. Carter, K. L. Jones, Michael Febbraro, S. Burcher, Steven D. Pain, Kelly Chipps, S. V. Paulauskas, David Walter, Andrew Ratkiewicz, Jolie Cizewski, Rebecca Toomey, Kyle Schmitt, H. Willoughby, T. Baugher, C. Thornsberry, R. Grzywacz, and S. Munoz

Subjects
Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, business.industry, Detector, Jet (particle physics), Scintillator, 01 natural sciences, Particle detector, Nuclear physics, Optics, Hybrid array, 0103 physical sciences, Particle, Neutron detection, Angular resolution, 010306 general physics, business, Instrumentation
Abstract

The structure of nuclei provides insight into astrophysical reaction rates that are difficult to measure directly. These studies are often performed with transfer reactions and β-decay measurements. These experiments benefit from particle-γ coincidence measurements which provide information beyond that of particle detection alone. The Hybrid Array of Gamma Ray Detectors (HAGRiD) of LaBr3(Ce) scintillators has been designed with this purpose in mind. The design of the array permits it to be coupled with particle detector systems, such as the Oak Ridge Rutgers University Barrel Array (ORRUBA) of silicon detectors and the Versatile Array of Neutron Detectors at Low Energy (VANDLE). It is also designed to operate with the Jet Experiments in Nuclear Structure and Astrophysics (JENSA) advanced target system. HAGRiD’s design avoids compromising the charged-particle angular resolution due to compact geometries which are often used to increase the γ efficiency in other systems. First experiments with HAGRiD coupled to VANDLE as well as ORRUBA and JENSA are discussed.

Published
2018

10. Direct Reaction Measurements Using GODDESS

Author

D. Seweryniak, S. Zhu, A. D. Ayangeakaa, Andrew Ratkiewicz, G. L. Wilson, Ian Marsh, S. Burcher, P. L. Tai, C. Thornsberry, Jolie Cizewski, Heather Garland, A. Lepailleur, Michael Scott Smith, A. Engelhardt, D. W. Bardayan, H. Sims, Michael Febbraro, Kelly Chipps, K. L. Jones, T. Baugher, P. Thompson, D. Santiago-Gonzales, J. C. Blackmon, David Walter, Jacob Allen, J. T. Anderson, Patrick O'Malley, R. Blanchard, M. R. Hall, R. L. Kozub, Karl Smith, K. Y. Chae, M. P. Carpenter, J. Hu, Eunji Lee, R. L. Varner, O. Hall, Bertis Rasco, S.C. Shadrick, S. M. Cha, and Steven D. Pain

Subjects
Coupling, Physics, Inverse kinematics, 010308 nuclear & particles physics, Shell (structure), 01 natural sciences, Nuclear physics, Atomic orbital, 0103 physical sciences, Physics::Accelerator Physics, r-process, Gammasphere, Direct reaction, Atomic physics, Nuclear Experiment, 010306 general physics, Beam (structure)
Abstract

GODDESS is a coupling of the charged-particle detection system ORRUBA to the gamma-ray detector array Gammasphere. This coupling has been developed in order to facilitate the high-resolution measurement of direct reactions in normal and inverse kinematics with stable and radioactive beams. GODDESS has been commissioned using a beam of 134 Xe at 10 MeV/A, in a campaign of stable beam measurements. The measurement demonstrates the capabilities of GODDESS under radioactive beam conditions, and provides the first data on the single-neutron states in 135 Xe, including previously unobserved states based on the orbitals above the N=82 shell closure.

Published
2017

11. Constraining spectroscopic factors near the r -process path using combined measurements: Kr86 (d, p)87Kr

Author

J. A. Cizewski, Kelly Chipps, S. Burcher, Sunghoon Ahn, Filomena Nunes, Paul Thompson, C. Thornsberry, Thomas Baumann, Brett Manning, G. Cerizza, S. J. Williams, S. J. Lonsdale, S. Ota, D. W. Bardayan, Fernando Montes, Patrick O'Malley, Andrew Ratkiewicz, R. L. Kozub, D. Bazin, S. D. Pain, T.R. Baugher, K.L. Jones, J. Pereira, and David Walter

Subjects
Physics, Path (graph theory), r-process, Computational physics
Published
2019

12. New γ -ray transitions observed in Ne19 with implications for the O15(α,γ)Ne19 reaction rate

Author

O. Hall, J. A. Cizewski, S. Burcher, H. Sims, Jacob Allen, S. Ota, K.L. Jones, R. L. Varner, Patrick O'Malley, G. L. Wilson, M. R. Hall, Paul Thompson, Kelly Chipps, Bertis Rasco, Sunghoon Ahn, J. Hu, C. Thornsberry, Eunji Lee, M. P. Carpenter, A. Lepailleur, S. Zhu, D. Seweryniak, K. Y. Chae, T.R. Baugher, J. T. Anderson, S. M. Cha, A. D. Ayangeakaa, Andrew Ratkiewicz, Wanpeng Tan, S. D. Pain, C. L. Jiang, Daniel Santiago-Gonzalez, D. W. Bardayan, Karl Smith, Michael Febbraro, J. C. Blackmon, and David Walter

Subjects
Physics, CNO cycle, Spins, 010308 nuclear & particles physics, Gamma ray, Type (model theory), 01 natural sciences, Nuclear physics, Reaction rate, 0103 physical sciences, Nuclear astrophysics, Gammasphere, 010306 general physics, National laboratory
Abstract

The $^{15}$O($\alpha$,$\gamma$)$^{19}$Ne reaction is responsible for breakout from the hot CNO cycle in Type I x-ray bursts. Understanding the properties of resonances between $E_x = 4$ and 5 MeV in $^{19}$Ne is crucial in the calculation of this reaction rate. The spins and parities of these states are well known, with the exception of the 4.14- and 4.20-MeV states, which have adopted spin-parities of 9/2$^-$ and 7/2$^-$, respectively. Gamma-ray transitions from these states were studied using triton-$\gamma$-$\gamma$ coincidences from the $^{19}$F($^{3}$He,$t\gamma$)$^{19}$Ne reaction measured with GODDESS (Gammasphere ORRUBA Dual Detectors for Experimental Structure Studies) at Argonne National Laboratory. The observed transitions from the 4.14- and 4.20-MeV states provide strong evidence that the $J^\pi$ values are actually 7/2$^-$ and 9/2$^-$, respectively. These assignments are consistent with the values in the $^{19}$F mirror nucleus and in contrast to previously accepted assignments.

Published
2019

13. Towards Neutron Capture on Exotic Nuclei: Demonstrating (d,pγ) as a Surrogate Reaction for (n,γ)

Author

Jutta Escher, Timothy Ross, R. A. E. Austin, C. Shand, Robert Casperson, S. L. Rice, Richard Hughes, M. McCleskey, B. Manning, Jason Burke, Jolie Cizewski, Andrew Ratkiewicz, N. D. Scielzo, Gregory Potel, Karl Smith, W. A. Peters, Steven D. Pain, and S. Burcher

Subjects
Nuclear physics, Physics, Stars, Neutron capture, Isotope, Nuclear Theory, 0103 physical sciences, Benchmark (computing), General Physics and Astronomy, Nuclear Experiment, 010306 general physics, 01 natural sciences, Measure (mathematics)
Abstract

The neutron-capture reaction plays a critical role in the synthesis of the elements in stars and is important for societal applications including nuclear power generation and stockpile-stewardship science. However, it is difficult---if not impossible---to directly measure neutron capture cross sections for the exotic, short-lived nuclei that participate in these processes. In this Letter we demonstrate a new technique which can be used to indirectly determine neutron-capture cross sections for exotic systems. This technique makes use of the $(d,p)$ transfer reaction, which has long been used as a tool to study the structure of nuclei. Recent advances in reaction theory, together with data collected using this reaction, enable the determination of neutron-capture cross sections for short-lived nuclei. A benchmark study of the $^{95}\mathrm{Mo}(d,p)$ reaction is presented, which illustrates the approach and provides guidance for future applications of the method with short-lived isotopes produced at rare isotope accelerators.

Published
2019

14. Using 19F(3He,t)19Ne*(γ) to study astrophysically important levels near the 18F+p threshold

Author

Jacob Allen, S. Burcher, G. L. Wilson, A. D. Ayangeakaa, Daniel Santiago-Gonzalez, Wanpeng Tan, Kelly Chipps, J. Hu, J. T. Anderson, Eunji Lee, S. L. Henderson, K. Y. Chae, D. Seweryniak, D. Blankstein, C. L. Jiang, D. W. Bardayan, B. Vande Kolk, J. C. Blackmon, S. M. Cha, Steven D. Pain, T. Baugher, David Walter, S. Ahn, S. Zhu, J. A. Cizewski, K. L. Jones, O. Hall, Andrew Ratkiewicz, D. S. Monteiro, Patrick O'Malley, M. R. Hall, R. O. Torres-Isea, B. Frentz, Bertis Rasco, H. Sims, C. Thornsberry, M. P. Carpenter, J. Riggins, A. Lepailleur, Karl Smith, S. Ota, Anna Simon, Michael Febbraro, P. Thompson, and R. L. Varner

Subjects
Physics, Nuclear physics, Reaction rate, Radionuclide, Isotope, Spins, Direct test, Observable, Nova (laser), National laboratory
Abstract

A direct test of nova explosion models comes from the observation of γ rays created in the decay of radioactive isotopes produced in the nova. One such isotope, 18F, is believed to be the main source of observable γ rays at and below 511 keV. The main destruction mechanism of 18F is thought to be the 18F(p,α)15O reaction, and uncertainties in the reaction rate arise from uncertainties in the energies, spins, and parities of the nuclear levels in 19Ne above the 18F+p threshold. To measure the properties of these levels, the 19F(3He,t)19Ne∗(γ) reaction was studied at Argonne National Laboratory and the Nuclear Science Laboratory at the University of Notre Dame.A direct test of nova explosion models comes from the observation of γ rays created in the decay of radioactive isotopes produced in the nova. One such isotope, 18F, is believed to be the main source of observable γ rays at and below 511 keV. The main destruction mechanism of 18F is thought to be the 18F(p,α)15O reaction, and uncertainties in the reaction rate arise from uncertainties in the energies, spins, and parities of the nuclear levels in 19Ne above the 18F+p threshold. To measure the properties of these levels, the 19F(3He,t)19Ne∗(γ) reaction was studied at Argonne National Laboratory and the Nuclear Science Laboratory at the University of Notre Dame.

Published
2019

15. Key ^{19}Ne States Identified Affecting γ-Ray Emission from ^{18}F in Novae

Author

M R, Hall, D W, Bardayan, T, Baugher, A, Lepailleur, S D, Pain, A, Ratkiewicz, S, Ahn, J M, Allen, J T, Anderson, A D, Ayangeakaa, J C, Blackmon, S, Burcher, M P, Carpenter, S M, Cha, K Y, Chae, K A, Chipps, J A, Cizewski, M, Febbraro, O, Hall, J, Hu, C L, Jiang, K L, Jones, E J, Lee, P D, O'Malley, S, Ota, B C, Rasco, D, Santiago-Gonzalez, D, Seweryniak, H, Sims, K, Smith, W P, Tan, P, Thompson, C, Thornsberry, R L, Varner, D, Walter, G L, Wilson, and S, Zhu

Abstract

Detection of nuclear-decay γ rays provides a sensitive thermometer of nova nucleosynthesis. The most intense γ-ray flux is thought to be annihilation radiation from the β^{+} decay of ^{18}F, which is destroyed prior to decay by the ^{18}F(p,α)^{15}O reaction. Estimates of ^{18}F production had been uncertain, however, because key near-threshold levels in the compound nucleus, ^{19}Ne, had yet to be identified. We report the first measurement of the ^{19}F(^{3}He,tγ)^{19}Ne reaction, in which the placement of two long-sought 3/2^{+} levels is suggested via triton-γ-γ coincidences. The precise determination of their resonance energies reduces the upper limit of the rate by a factor of 1.5-17 at nova temperatures and reduces the average uncertainty on the nova detection probability by a factor of 2.1.

Published
2018

16. Towards Neutron Capture on Exotic Nuclei: Demonstrating (d,pγ) as a Surrogate Reaction for (n,γ)

Author

A, Ratkiewicz, J A, Cizewski, J E, Escher, G, Potel, J T, Burke, R J, Casperson, M, McCleskey, R A E, Austin, S, Burcher, R O, Hughes, B, Manning, S D, Pain, W A, Peters, S, Rice, T J, Ross, N D, Scielzo, C, Shand, and K, Smith

Abstract

The neutron-capture reaction plays a critical role in the synthesis of the elements in stars and is important for societal applications including nuclear power generation and stockpile-stewardship science. However, it is difficult-if not impossible-to directly measure neutron capture cross sections for the exotic, short-lived nuclei that participate in these processes. In this Letter we demonstrate a new technique which can be used to indirectly determine neutron-capture cross sections for exotic systems. This technique makes use of the (d,p) transfer reaction, which has long been used as a tool to study the structure of nuclei. Recent advances in reaction theory, together with data collected using this reaction, enable the determination of neutron-capture cross sections for short-lived nuclei. A benchmark study of the ^{95}Mo(d,p) reaction is presented, which illustrates the approach and provides guidance for future applications of the method with short-lived isotopes produced at rare isotope accelerators.

Published
2018

17. Development of the (d,n) proton-transfer reaction in inverse kinematics for structure studies

Author

Stephen Taylor, Jacob Allen, S. Burcher, A. Fijałkowska, Miguel Madurga, Patrick O'Malley, Z. Elledge, A. B. Carter, C. Thornsberry, D. W. Bardayan, M. Vostinar, K. L. Jones, Jolie Cizewski, Karl Smith, D. Blankstein, C. S. Reingold, M. R. Hall, Michael Febbraro, A. Lepailleur, Thomas King, I. Cox, Wanpeng Tan, R. Grzywacz, A. Atencio, David Walter, S. T. Marley, W. A. Peters, Steven D. Pain, Kelly Chipps, and S. V. Paulauskas

Subjects
Physics, Proton, Inverse kinematics, Structure (category theory), FOS: Physical sciences, General Physics and Astronomy, 7. Clean energy, Spectral line, Ion, Nuclear physics, Nucleosynthesis, Transfer (computing), Physics::Accelerator Physics, Development (differential geometry), Nuclear Experiment (nucl-ex), Nuclear Experiment
Abstract

Transfer reactions have provided exciting opportunities to study the structure of exotic nuclei and are often used to inform studies relating to nucleosynthesis and applications. In order to benefit from these reactions and their application to rare ion beams (RIBs) it is necessary to develop the tools and techniques to perform and analyze the data from reactions performed in inverse kinematics, that is with targets of light nuclei and heavier beams. We are continuing to expand the transfer reaction toolbox in preparation for the next generation of facilities, such as the Facility for Rare Ion Beams (FRIB), which is scheduled for completion in 2022. An important step in this process is to perform the (d,n) reaction in inverse kinematics, with analyses that include Q-value spectra and differential cross sections. In this way, proton-transfer reactions can be placed on the same level as the more commonly used neutron-transfer reactions, such as (d,p), (9Be,8Be), and (13C,12C). Here we present an overview of the techniques used in (d,p) and (d,n), and some recent data from (d,n) reactions in inverse kinematics using stable beams of 12C and 16O., 9 pages, 4 figures, presented at the XXXV Mazurian Lakes Conference on Physics, Piaski, Poland

Published
2017

18. Transfer Reactions with 134Xe

Author

G.L. Wilson, A. Lepailleur, E. J. Lee, Patrick O'Malley, S. D. Pain, Paul Thompson, S. Zhu, T. Baugher, D. Seweryniak, J. T. Anderson, S. Burcher, S.C. Shadrick, K.L. Jones, R. L. Varner, S. M. Cha, P. L. Tai, Kelly Chipps, Jacob Allen, Andrew Ratkiewicz, Michael Febbraro, David Walter, J. Hu, Ian Marsh, Michael S. Smith, A. Engelhardt, R. L. Kozub, K. Y. Chae, R. Blanchard, O. Hall, Karl Smith, C. Thornsberry, J. A. Cizewski, M. R. Hall, M. P. Carpenter, Heather Garland, D. W. Bardayan, and H. Sims

Subjects
Chemical physics, Chemistry, Transfer (computing)
Published
2017

19. A kinematically complete, interdisciplinary, and co-institutional measurement of the 19F(α,n) cross section for nuclear safeguards science

Author

M. Madurga, S. V. Ilyushkin, Stephanie Lyons, R. Avetisyan, Z. Tully, A. Gyurjinyan, K. Siegl, Wanpeng Tan, Mallory Smith, A. Long, Edward Stech, S. Strauss, D. W. Bardayan, S. T. Pittman, Steven D. Pain, Jolie Cizewski, M. M. Grinder, R. Talwar, Karl Smith, S. J. Thompson, Y.S.Chen, Michael Scott Smith, A. Battaglia, Michael Wiescher, C.S. Reingold, C. Thornsberry, B. Manning, P. Thompson, Christopher Seymour, R.R.C. Clement, S. Burcher, S. T. Marley, and Kelly Chipps

Subjects
Nuclear reaction, Nuclear physics, Light nucleus, Cross section (physics), Nuclear safeguards, Chemistry, Nondestructive analysis
Published
2016

20. Resilience of people with a history of mental disorder during the COVID-19 pandemic: a 2-years longitudinal prospective study

Author

I. Pinucci, L. Tarsitani, F. Tedeschi, M. Patanè, R. Serra, D. Papola, C. Palantza, C. Acartürk, R. Bryant, S. Burchert, D. Fuhr, B. J. Hall, E. Mittendorfer-Rutz, N. Morina, C. Panter-Brick, S. Quero, S. Seedat, H. Setyowibowo, J. van der Waerden, M. Pasquini, M. Sijbrandij, and C. Barbui

Subjects
Psychiatry, RC435-571
Abstract

Introduction During the COVID-19 pandemic, people with mental disorders were exposed to a common and prolonged source of stress. Studies focusing on the consequences of the pandemic on individuals with a history of mental disorder are scarce, but they suggest a higher vulnerability as compared to the general population. Objectives We aimed at identifying predictors of stress resilience maintained over time among these people during the first two years of the pandemic. Methods The presented study is part of a larger 2-year, 5-wave international longitudinal online survey. The Patient Health Questionnaire, the Generalized Anxiety Disorder scale and the PTSD Checklist DSM-5 were used as latent class indicators for a proxy measure of distress. Specifically, a Latent-Class Analysis was performed to identify a group that showed resilient outcomes across all waves. We investigated socio-demographic characteristics, economic and housing status, lifestyle and habits, pandemic-related issues, and chronic disease. Adherence to and approval of the restrictions imposed, trust in governments and the scientific community during the pandemic were also assessed. Social support, fear of contamination and personal values were investigated respectively through the Oslo Social Support Scale, the Padua Inventory, and the Portrait Values Questionnaire. The aforementioned characteristics were used to predict sustained resilience through a logistic regression. Results A total of 1711 participants out of the total sample (8011 participants from 13 different countries) reported a diagnosis of mental disorder before the pandemic. Nine hundred forty-three participants completed at least three of the five versions of the survey and were included in the analysis. A latent class of participants with resilience maintained over time (sustained resilience) was identified, with an estimated probability of 24.8%. The demographic and clinical variables associated with a higher chance of sustained resilience were older age, maintaining a job during the pandemic, and having a larger number of people in the household. In contrast, female gender, losing job during the pandemic, having difficulty meeting basic needs, greater fear of contamination, a stronger focus on hedonism, less social support and feeling lonely resulted in a lower likelihood of being sustained resilient. Conclusions This study identified a number of factors that may help predict resilient outcomes maintained over time in people with mental disorders. COVID-19 related predictors of sustained resilience are new findings which might inform resilience-building interventions during pandemics. Disclosure of InterestNone Declared

Published
2023
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21. Direct reaction experimental studies with beams of radioactive tin ions

Author

Alexandra Gade, K. L. Jones, Kathrin Wimmer, A. Shore, A. Galindo-Uribarri, Jolie Cizewski, Caroline D Nesaraja, S. Burcher, J. S. Berryman, Patrick O'Malley, M. Matos, R. L. Kozub, M. E. Howard, D. Bazin, D. W. Bardayan, S. McDaniel, Elizabeth Padilla-Rodal, J. R. Beene, Robert Grzywacz, T. Baugher, Lucia Cartegni, B. Manning, S. Ahn, S. R. Stroberg, R. F. Garcia-Ruiz, S. Padgett, K. T. Schmitt, J. F. Liang, Michael Scott Smith, Steven D. Pain, Andrew Ratkiewicz, A. Bey, D. Weisshaar, J. A. Tostevin, K. Y. Chae, G. Cerizza, S. T. Pittman, D. C. Radford, David Miller, D. W. Stracener, J. M. Allmond, R. L. Varner, A. Ayres, R. Winkler, and C. R. Bingham

Subjects
Radioactive ion beams, Nuclear physics, Isotope, chemistry, Stable isotope ratio, Nuclear Theory, Isotopes of tin, chemistry.chemical_element, Neutron, Nuclear Experiment, Tin, Particle identification, Ion
Abstract

The tin chain of isotopes provides a unique region in which to investigate the evolution of single-particle structure, spreading from N = 50 at 100Sn, through 10 stable isotopes and the N = 82 shell closure at 132Sn out into the r-process path. Direct reactions performed on radioactive ion beams are sensitive spectroscopic tools for studying exotic nuclei. Here we present one experiment knocking out neutrons from tin isotopes that are already neutron deficient and two reactions that add a neutron to neutron-rich 130Sn. Both techniques rely on selective particle identification and the measurement of γ rays in coincidence with charged ions. We present the goals of the two experiments and the particle identification for the channels of interest. The final results will be presented in future publications.

Published
2015

22. Transition from collectivity to single-particle degrees of freedom from magnetic moment measurements on 3882Sr 44 and 3890Sr 52

Author

Kamila Sieja, G. J. Kumbartzki, Michael Slater, S. L. Rice, V. I. Zherebchevsky, A. Cudd, Yitzhak Sharon, Jason Burke, Andrew Ratkiewicz, Shadow J. Q. Robinson, M. McCleskey, S. Yu. Torilov, Antti Saastamoinen, S. Burcher, Michael M. Henry, Steven D. Pain, G. Gurdal, Larry Zamick, A. Spiridon, N. Benczer-Koller, K.-H. Speidel, and D. A. Torres

Subjects
Physics, Nuclear and High Energy Physics, Condensed matter physics, Magnetic moment, 010308 nuclear & particles physics, Nuclear Theory, Krypton, Degrees of freedom (physics and chemistry), Nuclear structure, chemistry.chemical_element, Coulomb excitation, 01 natural sciences, Fragility, chemistry, 0103 physical sciences, Physics::Atomic and Molecular Clusters, Particle, Neutron, Atomic physics, Nuclear Experiment, 010306 general physics
Abstract

The evolution of shell structure and the fragility of the benchmark magic numbers is a topic of major interest in nuclear-structure physics. The authors measured the structure-sensitive $g$ factors of states in unstable even-even strontium isotopes, following $\ensuremath{\alpha}$-pickup reactions by krypton beams from a carbon target. The results help elucidate how protons and neutrons contribute to the evolution of nuclear structure in this important mass region where rapid structural changes occur.

Published
2014

24. Validating (d,pγ) as a Surrogate for Neutron Capture

Author

S. Burcher, C. J. Lister, B. Manning, W. A. Peters, Nikolaos Fotiades, K. L. Jones, T. Baugher, Matthew Devlin, Robert Casperson, John M. O'Donnell, Richard Hughes, Jutta Escher, Steven D. Pain, R. A. E. Austin, M. P. Carpenter, Timothy Ross, Andrew Ratkiewicz, D. Seweryniak, M. E. Howard, Robert Hatarik, N. D. Scielzo, S. Zhu, M. McCleskey, Jason Burke, Jolie Cizewski, Aderemi S. Adekola, C. Shand, S. Hardy, and R. L. Kozub

Subjects
Physics, 010308 nuclear & particles physics, Abundance (chemistry), QC1-999, 7. Clean energy, 01 natural sciences, Nuclear physics, Reaction rate, Neutron capture, Excited state, 0103 physical sciences, Atomic physics, 010306 general physics
Abstract

The r-process is responsible for creating roughly half of the elements heavier than iron. It has recently become understood that the rates at which neutron capture reactions proceed at late times in the r-process may dramatically affect the final abundance pattern. However, direct measurements of neutron capture reaction rates on exotic nuclei are exceptionally difficult, necessitating the development of indirect approaches such as the surrogate technique. The (d,pγ) reaction at low energies was identified as a promising surrogate for the (n,γ) reaction, as both reactions share many characteristics. We report on a program to validate (d,pγ) as a surrogate for (n,γ) using 95Mo as a target. The experimental campaign includes direct measurements of the γ-ray intensities from the decay of excited states populated in the 95Mo(n,γ) and 95Mo(d,pγ) reactions.

Published
2015

25. PNEUMATIC WAVE ENERGY CONVERSION

Author

Michael E. McCormick and Eugene S. Burcher

Subjects
Engineering, Fouling, business.industry, Wave shoaling, Wind wave, Compressibility, Oscillating Water Column, Electrical engineering, Energy transformation, Mechanics, business, Turbine, Swell
Abstract

Wave energy conversion using the pneumatic system is discussed. The performance of the system is shown to be optimized by both tuning to a desired wave period and impedance-matching. The desired wave period may be either that of the local swell or the period corresponding to the peak of the wave energy spectrum. Air compressibility is shown to be an important factor in the tuning process. By reducing the air volume above the oscillating water column, the natural period of the system is reduced. The turbine system found to be most suitable to the pneumatic system is the McCormick counter-rotating turbine. Since the turbine operation is unaffected by changes in flow direction, it requires no rectifying flaps or valves which are subject to fouling. Small diameter tunable systems are found to be most feasible in wind waves, while large diameter (untuned) systems are apropos in swell.

Published
1982

26. Applications of behavioral research on undersea habitats to manned space flight

Author

S. Deutsch, E. S. Burcher, E. J. Mclaughlin, and N. Zill

Subjects
Engineering, Aeronautics, Habitat, business.industry, Habitability, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, Underwater, Human engineering, business, GeneralLiterature_MISCELLANEOUS
Abstract

Underwater saturation habitats application as behavioral workshops for mission planning and human engineering of manned space flight, discussing Project Tektite

Published
1969

27. Towards Neutron Capture on Exotic Nuclei: Demonstrating (d,pγ) as a Surrogate Reaction for (n,γ).

Author

Ratkiewicz A, Cizewski JA, Escher JE, Potel G, Burke JT, Casperson RJ, McCleskey M, Austin RAE, Burcher S, Hughes RO, Manning B, Pain SD, Peters WA, Rice S, Ross TJ, Scielzo ND, Shand C, and Smith K

Abstract

The neutron-capture reaction plays a critical role in the synthesis of the elements in stars and is important for societal applications including nuclear power generation and stockpile-stewardship science. However, it is difficult-if not impossible-to directly measure neutron capture cross sections for the exotic, short-lived nuclei that participate in these processes. In this Letter we demonstrate a new technique which can be used to indirectly determine neutron-capture cross sections for exotic systems. This technique makes use of the (d,p) transfer reaction, which has long been used as a tool to study the structure of nuclei. Recent advances in reaction theory, together with data collected using this reaction, enable the determination of neutron-capture cross sections for short-lived nuclei. A benchmark study of the ^{95}Mo(d,p) reaction is presented, which illustrates the approach and provides guidance for future applications of the method with short-lived isotopes produced at rare isotope accelerators.

Published
2019
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28. Key ^{19}Ne States Identified Affecting γ-Ray Emission from ^{18}F in Novae.

Author

Hall MR, Bardayan DW, Baugher T, Lepailleur A, Pain SD, Ratkiewicz A, Ahn S, Allen JM, Anderson JT, Ayangeakaa AD, Blackmon JC, Burcher S, Carpenter MP, Cha SM, Chae KY, Chipps KA, Cizewski JA, Febbraro M, Hall O, Hu J, Jiang CL, Jones KL, Lee EJ, O'Malley PD, Ota S, Rasco BC, Santiago-Gonzalez D, Seweryniak D, Sims H, Smith K, Tan WP, Thompson P, Thornsberry C, Varner RL, Walter D, Wilson GL, and Zhu S

Abstract

Detection of nuclear-decay γ rays provides a sensitive thermometer of nova nucleosynthesis. The most intense γ-ray flux is thought to be annihilation radiation from the β^{+} decay of ^{18}F, which is destroyed prior to decay by the ^{18}F(p,α)^{15}O reaction. Estimates of ^{18}F production had been uncertain, however, because key near-threshold levels in the compound nucleus, ^{19}Ne, had yet to be identified. We report the first measurement of the ^{19}F(^{3}He,tγ)^{19}Ne reaction, in which the placement of two long-sought 3/2^{+} levels is suggested via triton-γ-γ coincidences. The precise determination of their resonance energies reduces the upper limit of the rate by a factor of 1.5-17 at nova temperatures and reduces the average uncertainty on the nova detection probability by a factor of 2.1.

Published
2019
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29. Oncology health professionals' attitudes toward treatment-focused genetic testing for women newly diagnosed with breast cancer.

Author

Burcher S, Meiser B, Mitchell G, Saunders C, Rahman B, Tucker K, Barlow-Stewart K, Watts K, Gleeson M, and Kirk J

Abstract

Aim: This study explored the attitudes of oncology health professionals towards treatment-focused genetic testing (TFGT) for women newly diagnosed with breast cancer., Materials & Methods: Members of several relevant medical organizations in Australia and New Zealand were invited via email to participate in an online survey., Results: A total of 149 respondents, including 40 surgeons, 46 oncologists and 63 breast care nurses, completed the online questionnaire. The majority of respondents believed that TFGT was useful for patient care (87.3%) and valuable for the treatment and management of breast cancer (90.6%). In multivariable analyses, breast care nurses were significantly more likely to agree that TFGT was useful for patient care and the treatment and management of breast cancer compared with oncologists and surgeons (β = 0.30; 95% CI: 0.01-0.60; p = 0.045). Participants also agreed that TFGT has an impact on treatment decision-making (96.0%), uptake of bilateral mastectomy (98.7%) and uptake of risk-reducing salpingo-oophorectomy (98.0%) in women newly diagnosed with breast cancer. A slight preference towards surgeons (49.7%) as the best health professional to make the initial offer of TFGT was observed and the majority of respondents suggested the best time to offer TFGT was shortly after diagnosis, when the treatment plan is discussed., Conclusion: The findings suggest health professionals have positive attitudes towards TFGT. Future training programs focusing on teamwork models and guidelines specifying health professionals' roles in regards to TFGT and follow-up management may be of benefit.

Published
2013
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30. "Let us live and let them die".

Author

Burcher S

Subjects
Bias, HIV Infections diagnosis, HIV Infections mortality, HIV Infections therapy, Humans, Politics, Poverty, Global Health, World Health Organization organization & administration
Abstract

A WHO staff member's parting salvo to the international health agency and its neoliberal approach to health.

Published
2007
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