Your search keyword '"N. Esker"' showing total 4 results

1. First application of Markov chain Monte Carlo-based Bayesian data analysis to the Doppler-shift attenuation method

Author

L.J. Sun, C. Fry, B. Davids, N. Esker, C. Wrede, M. Alcorta, S. Bhattacharjee, M. Bowry, B.A. Brown, T. Budner, R. Caballero-Folch, L. Evitts, M. Friedman, A.B. Garnsworthy, B.E. Glassman, G. Hackman, J. Henderson, O.S. Kirsebom, J. Lighthall, P. Machule, J. Measures, M. Moukaddam, J. Park, C. Pearson, D. Pérez-Loureiro, C. Ruiz, P. Ruotsalainen, J. Smallcombe, J.K. Smith, D. Southall, J. Surbrook, L.E. Weghorn, and M. Williams

Subjects

Lifetimes of 31S states, 30P(p,γ)31S reaction, Nova nucleosynthesis, Bayesian analysis, Markov chain Monte Carlo, Physics, QC1-999

Abstract

Motivated primarily by the large uncertainties in the thermonuclear rate of the 30P(p,γ)31S reaction that limit our understanding of classical novae, we carried out lifetime measurements of 31S excited states using the Doppler Shift Lifetimes (DSL2) facility at the TRIUMF Isotope Separator and Accelerator (ISAC-II) facility. The 31S excited states were populated by the 3He(32S,α)31S reaction. The deexcitation γ rays were detected by a clover-type high-purity germanium detector in coincidence with the α particles detected by a silicon detector telescope. We have applied modern Markov chain Monte Carlo-based Bayesian statistical techniques to perform lineshape analyses of Doppler-shift attenuation method γ-ray data for the first time. We have determined the lifetimes of the two lowest-lying 31S excited states. First experimental upper limits on the lifetimes of four higher-lying states have been obtained. The experimental results were compared to shell-model calculations using five universal sd-shell Hamiltonians. Evidence for γ rays originating from the astrophysically important Jπ=3/2+, 260-keV 30P(p,γ)31S resonance with an excitation energy of Ex=6390.2(7) keV in 31S has also been observed, although strong constraints on the lifetime will require better statistics.

Published

2023

2. First inverse kinematics measurement of key resonances in the 22Ne(p,γ)23Na reaction at stellar temperatures

Author

A. Lennarz, M. Williams, A.M. Laird, U. Battino, A.A. Chen, D. Connolly, B. Davids, N. Esker, R. Garg, M. Gay, U. Greife, U. Hager, D. Hutcheon, J. José, M. Lovely, S. Lyons, A. Psaltis, J.E. Riley, A. Tattersall, and C. Ruiz

Subjects

Inverse kinematics measurements, Radiative capture reactions, Stellar nucleosynthesis, Physics, QC1-999

Abstract

In this Letter we report on the first inverse kinematics measurement of key resonances in the Ne22(p,γ)23Na reaction which forms part of the NeNa cycle, and is relevant for 23Na synthesis in asymptotic giant branch (AGB) stars. An anti-correlation in O and Na abundances is seen across all well-studied globular clusters (GC), however, reaction-rate uncertainties limit the precision as to which stellar evolution models can reproduce the observed isotopic abundance patterns. Given the importance of GC observations in testing stellar evolution models and their dependence on NeNa reaction rates, it is critical that the nuclear physics uncertainties on the origin of 23Na be addressed. We present results of direct strengths measurements of four key resonances in Ne22(p,γ)23Na at Ec.m. = 149 keV, 181 keV, 248 keV and 458 keV. The strength of the important Ec.m. = 458 keV reference resonance has been determined independently of other resonance strengths for the first time with an associated strength of ωγ = 0.439(22) eV and with higher precision than previously reported. Our result deviates from the two most recently published results obtained from normal kinematics measurements performed by the LENA and LUNA collaborations but is in agreement with earlier measurements. The impact of our rate on the Na-pocket formation in AGB stars and its relation to the O-Na anti-correlation was assessed via network calculations. Further, the effect on isotopic abundances in CO and ONe novae ejecta with respect to pre-solar grains was investigated.

Published

2020

3. 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

4. a study of treatment results with surgical recommendations

Author

T. H. Hohl, George Manstein, and B. N. Esker

Subjects

medicine.medical_specialty, business.industry, Medicine, Surgery, Treatment results, business, Intensive care medicine

Published

1977