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4. How does the carbon fusion reaction happen in stars?

Author

X. Tang, B. Bucher, X. Fang, M. Notani, W. P. Tan, Y. Li, P. Mooney, H. Esbensen, C. L. Jiang, K. E. Rehm, C. J. Lin, and E. Brown

Subjects
12C + 12C, fusion reaction, stellar evolution, Atomic physics. Constitution and properties of matter, QC170-197
Abstract

The 12C + 12C fusion reaction is one of the most important reactions in the stellar evolution. Due to its compli-cated reaction mechanism, there is great uncertainty in the reaction rate which limits our understanding of vari-ous stellar objects, such as explosions on the surface of neutron stars, white dwarf (type Ia) supernovae, and massive stellar evolution. In this paper, I will review the challenges in the study of carbon burning. I will also report recent re-sults from our studies: 1) an upper limit for the 12C + 12C fusion cross sections, 2) measurement of the 12C + 12C at deep sub-barrier energies, 3) a new measurement of the 12C(12C, n) reaction. The outlook for the studies of the astrophysical heavy-ion fusion reactions will also be presented.

Published
2013

6. Retraction

Author

N. Kinoshita, M. Paul, Y. Kashiv, P. Collon, C. M. Deibel, B. DiGiovine, J. P. Greene, C. L. Jiang, S. T. Marley, R. C. Pardo, K. E. Rehm, D. Robertson, R. Scott, C. Schmitt, X. D. Tang, R. Vondrasek, and A. Yokoyama

Subjects
Multidisciplinary
Published
2023
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7. The 41Ar(n,y)42Ar reaction

Author

R. N. Sahoo, M. Paul, U. Köster, R. Scott, M. Tessler, A. Zylstra, M. L. Avila, C. Dickerson, H. Jayatissa, M.S. Kohen, J. McLain, R.C. Pardo, K. E. Rehm, I. Tolstukhin, R. Vondrasek, T. Bailey, L. Callahan, A. Clark, P. Collon, Y. Kashiv, and A. Nelson

Subjects
General Medicine
Abstract

The cross-section of the thermal neutron capture 41Ar(n,γ)42Ar(t1/2=32.9 y) reaction was measured by irradiating a 40Ar sample at the high-flux reactor of Institut Laue-Langevin (ILL) Grenoble, France. The signature of the two-neutron capture has been observed by measuring the growth curve and identifying the 1524.6 keV γ-lines of the shorter-lived 42K(12.4 h) β− daughter of 42Ar. Our preliminary value of the 41Ar(n,γ)42Ar thermal cross section is 240(80) mb at 25.3 meV. For the first time, direct counting of 42Ar was performed using the ultra-high sensitivity technique of noble gas accelerator mass spectrometry (NOGAMS) at Argonne National Laboratory, USA.

Published
2023
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8. 40Ar proposed as probe of neutron-induced reactions in a high-density stellar-like plasma at the National Ignition Facility

Author

M. Paul, R. N. Sahoo, M. Tessler, J. Jeet, C. Velsko, A. Zylstra, M. Avila, C. Dickerson, C. Fougères, H. Jayatissa, R. C. Pardo, K. E. Rehm, R. Scott, I. Tolstukhin, R. Vondrasek, T. Bailey, L. Callahan, A. M. Clark, P. Collon, Y. Kashiv, A. Nelson, U. Köster, H. F. R. Hoffmann, M. Pichotta, K. Zuber, T. Döring, and R. Schwengner

Subjects
General Medicine
Abstract

The thermodynamical conditions and the neutron density produced in a laser-induced implosion of a deuterium-tritium (DT) filled capsule at the National Ignition Facility (NIF) are the closest laboratory analog of stellar conditions. We plan to investigate neutron-induced reactions on 40Ar, namely the 40Ar(n, 2n)39Ar(t1/2 =268 y), the 40Ar(n, γ)41Ar(110 min) and the potential rapid two-neutron capture reaction 40Ar(2n, γ)42Ar(33 y) in an Ar-loaded DT capsule. The chemical inertness of noble gas Ar enables reliable collection of the reaction products.

Published
2023
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9. Astrophysics experiments with radioactive beams at ATLAS

Author

B. B. Back, J. A. Clark, R. C. Pardo, K. E. Rehm, and G. Savard

Subjects
Physics, QC1-999
Abstract

Reactions involving short-lived nuclei play an important role in nuclear astrophysics, especially in explosive scenarios which occur in novae, supernovae or X-ray bursts. This article describes the nuclear astrophysics program with radioactive ion beams at the ATLAS accelerator at Argonne National Laboratory. The CARIBU facility as well as recent improvements for the in-flight technique are discussed. New detectors which are important for studies of the rapid proton or the rapid neutron-capture processes are described. At the end we briefly mention plans for future upgrades to enhance the intensity, purity and the range of in-flight and CARIBU beams.

Published
2014
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10. Heavy-ion fusion reactions at extreme sub-barrier energies

Author

C. L. Jiang, B. B. Back, A. M. Stefanini, K. E. Rehm, Kouichi Hagino, and G. Montagnoli

Subjects
Physics, Nuclear and High Energy Physics, Fusion, Field (physics), 010308 nuclear & particles physics, Fission, Physics beyond the Standard Model, 01 natural sciences, Measure (mathematics), Nuclear physics, Cross section (physics), 0103 physical sciences, Quasiparticle, Nuclear fusion, 010306 general physics
Abstract

The study of fusion reactions at extreme sub-barrier energies has seen an increased interest in recent years, although difficult to measure due to their very small cross sections. Such reactions are extremely important for our understanding of the production of heavy elements in various environments. In this article, the status of the field is reviewed covering the experimental techniques, the available data, and the theoretical approaches used to describe such reactions. The fusion hindrance effect, first discovered in medium-mass systems, has been found to be relevant also for lighter systems. In some light systems, resonance structures are found to be important, while for heavy systems, the fission process plays an important role. In the near barrier region, couplings to collective excitations in the fusion participants and transfer reactions have been found to give a good description of the measured fusion cross sections and it results in a distribution of fusion barrier heights. New physics ingredients, related to the overlap process of the two projectiles, have to be introduced to describe the hindrance behavior. In addition, it has recently been found that the fusion cross section in both near-barrier and sub-barrier regions can be described very well in many cases using simple, analytical forms of the barrier-height distributions or a modified version of the classic Wong formula.

Published
2021

11. Development of an Isomeric beam of26Al for nuclear reaction studies

Author

Melina Avila, Daniel Santiago-Gonzalez, Sergio Almaraz-Calderon, K. E. Rehm, B. P. Kay, A. Chen, Clayton Dickerson, R. C. Pardo, Rashi Talwar, O. Nusair, C. L. Jiang, and Benjamin Asher

Subjects
Physics, Nuclear reaction, Nuclear and High Energy Physics, Analytical chemistry, 01 natural sciences, 7. Clean energy, Galaxy, Nucleosynthesis, 0103 physical sciences, 010306 general physics, Ground state, 010303 astronomy & astrophysics, Instrumentation, Beam (structure)
Abstract

This paper describes the production and characterization of a 26Al beam comprised of both, its 5 + ground state, and its 0 + isomeric state. The 26Al beam was produced in-flight via the p (26Mg, 26Al)n reaction. The isomer fraction of the 26Al beam was maximized by choosing a bombarding energy of 158.5 MeV for the 26Mg primary beam. The resulting beam had an energy of 120 MeV, a total intensity of 2 × 10 5 particles/sec, a purity of 98% and an isomer content of 70%. This high-quality 26Al isomeric beam was used to study the 26Al m (d, p)27Al reaction relevant for understanding the nucleosynthesis of 26Al in the Galaxy.

Published
2018
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12. Design of SECAR a recoil mass separator for astrophysical capture reactions with radioactive beams

Author

R. V. F. Janssens, G. Perdikakis, Michael Wiescher, Uwe Greife, Manoel Couder, Hendrik Schatz, Al Zeller, J. C. Blackmon, K. E. Rehm, Christopher Wrede, Michael Scott Smith, Steven D. Pain, G. P. A. Berg, M. Moran, X. Wu, Kelly Chipps, Karl Smith, U. Hager, D. W. Bardayan, and F. Montes

Subjects
Physics, Nuclear and High Energy Physics, Range (particle radiation), Wien filter, 010308 nuclear & particles physics, chemistry.chemical_element, Separator (oil production), 01 natural sciences, Nuclear physics, Recoil, chemistry, Nucleosynthesis, 0103 physical sciences, Physics::Accelerator Physics, Center of mass, Nuclear Experiment, 010306 general physics, Instrumentation, Helium, Beam (structure)
Abstract

A recoil mass separator SECAR has been designed for the purpose of studying low-energy ( p , γ ) and ( α , γ ) reactions in inverse kinematics with radioactive beams for masses up to about A = 65. Their reaction rates are of importance for our understanding of the energy production and nucleosynthesis during explosive hydrogen and helium burning. The radiative capture reactions take place in a windowless hydrogen or He gas target at the entrance of the separator, which consists of four Sections . The first Section selects the charge state of the recoils. The second and third Sections contain Wien Filters providing high mass resolving power to separate efficiently the intense beam from the few reaction products. In the following fourth Section , the reaction products are guided into a detector system capable of position, angle and time-of-flight measurements. In order to accept the complete kinematic cone of recoil particles including multiple scattering in the target in the center of mass energy range of 0.2 MeV to 3.0 MeV, the system must have a large polar angle acceptance of ± 25 mrad. This requires a careful minimization of higher order aberrations. The present system will be installed at the NSCL ReA3 accelerator and will be used with the much higher beam intensities of the FRIB facility when it becomes available.

Published
2018
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13. Study of (α,p) and (α,n) reactions with a Multi-Sampling Ionization Chamber

Author

Sergio Almaraz-Calderon, Melina Avila, R. C. Pardo, Claudio Ugalde, A. D. Ayangeakaa, Daniel Santiago-Gonzalez, O. Nusair, J. Lai, C. L. Jiang, Rashi Talwar, B. P. Kay, Calem Hoffman, K. E. Rehm, and Clayton Dickerson

Subjects
Physics, Novel technique, Excitation function, Active target, Nuclear and High Energy Physics, Range (particle radiation), 010308 nuclear & particles physics, Single beam, Analytical chemistry, 01 natural sciences, 0103 physical sciences, Ionization chamber, Center of mass, Atomic physics, 010306 general physics, Instrumentation, Excitation
Abstract

A large number of (α,p)(α,p) and (α,n)(α,n) reactions are known to play a fundamental role in nuclear astrophysics. This work presents a novel technique to study these reactions with the active target system MUSIC whose segmented anode allows the investigation of a large energy range of the excitation function with a single beam energy. In order to verify the method, we performed direct measurements of the previously measured reactions 17O (α,n)(α,n)20Ne, 23Na (α,p)(α,p)26Mg, and 23Na (α,n)(α,n)26Al. These reactions were investigated in inverse kinematics using 4He gas in the detector to study the excitation functions in the energy range of about 2–6 MeV in the center of mass. We found good agreement between the cross sections of the 17O (α,n)(α,n)20Ne reaction measured in this work and previous measurements. Furthermore we have successfully performed a simultaneous measurement of the 23Na (α,p)(α,p)26Mg and 23Na (α,n)(α,n)26Al reactions.

Published
2017
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14. Reproducing heavy-ion fusion cross sections at extreme sub-barrier energies with a simple formula

Author

K. E. Rehm, G. Montagnoli, B. B. Back, A. M. Stefanini, and C. L. Jiang

Subjects
Excitation function, Physics, Nuclear and High Energy Physics, Fusion, 010308 nuclear & particles physics, Gaussian, Hadron, 01 natural sciences, Computational physics, symbols.namesake, Cross section (physics), Simple (abstract algebra), 0103 physical sciences, Range (statistics), symbols, Nuclear fusion, 010306 general physics
Abstract

Heavy-ion fusion hindrance occurs at extreme sub-barrier energies. This behavior is well reproduced with a simple cross section formula, which was developed by Siwek-Wilczynska et al., based on a single-Gaussian distribution of fusion barrier heights, before the discovery of the hindrance phenomenon. This expression has not yet been widely used and referenced in the literature. An analysis by using this simple formula is presented for 29 systems, from 16O + 18O to 64Ni + 124Sn , all being measured down to less than 10μb. The agreement with the data is even better than the ones from sophisticated Coupled-channels calculations. This simple expression also applies to fusion reactions in lighter systems. The three parameters contained in this formula vary in a relatively smooth fashion over the whole mass range, and can be used to extrapolate cross sections or to obtain an estimate of the excitation function for systems which have not been measured. Extensions and restrictions of this method are also discussed.

Published
2018
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15. StellarAr36,38(n,γ)Ar37,39Reactions and Their Effect on Light Neutron-Rich Nuclide Synthesis

Author

D. Veltum, Bradley S. Meyer, R. C. Pardo, Mario Weigand, Daniel Baggenstos, D. Kijel, N. Hazenshprung, Rashi Talwar, Philippe Collon, R. C. Vondrasek, I. Silverman, R. Scott, Yoav Kashiv, Rene Reifarth, M. Tessler, Asher Shor, Sergio Almaraz-Calderon, Roland Purtschert, Melina Avila, A. Kreisel, Shlomi Halfon, K. E. Rehm, Daniel Santiago-Gonzalez, Michael Paul, and Leonid Weissman

Subjects
Physics, 010308 nuclear & particles physics, Analytical chemistry, General Physics and Astronomy, 7. Clean energy, 01 natural sciences, Stellar nucleosynthesis, 13. Climate action, Neutron flux, 0103 physical sciences, Neutron source, Neutron, Nuclide, 010306 general physics, s-process, Mass fraction, Accelerator mass spectrometry
Abstract

The ^{36}Ar(n,γ)^{37}Ar (t_{1/2}=35 d) and ^{38}Ar(n,γ)^{39}Ar (269 yr) reactions were studied for the first time with a quasi-Maxwellian (kT∼47 keV) neutron flux for Maxwellian average cross section (MACS) measurements at stellar energies. Gas samples were irradiated at the high-intensity Soreq applied research accelerator facility-liquid-lithium target neutron source and the ^{37}Ar/^{36}Ar and ^{39}Ar/^{38}Ar ratios in the activated samples were determined by accelerator mass spectrometry at the ATLAS facility (Argonne National Laboratory). The ^{37}Ar activity was also measured by low-level counting at the University of Bern. Experimental MACS of ^{36}Ar and ^{38}Ar, corrected to the standard 30 keV thermal energy, are 1.9(3) and 1.3(2) mb, respectively, differing from the theoretical and evaluated values published to date by up to an order of magnitude. The neutron-capture cross sections of ^{36,38}Ar are relevant to the stellar nucleosynthesis of light neutron-rich nuclides; the two experimental values are shown to affect the calculated mass fraction of nuclides in the region A=36-48 during the weak s process. The new production cross sections have implications also for the use of ^{37}Ar and ^{39}Ar as environmental tracers in the atmosphere and hydrosphere.

Published
2018
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16. Stellar ^{36,38}Ar(n,γ)^{37,39}Ar Reactions and Their Effect on Light Neutron-Rich Nuclide Synthesis

Author

M, Tessler, M, Paul, S, Halfon, B S, Meyer, R, Pardo, R, Purtschert, K E, Rehm, R, Scott, M, Weigand, L, Weissman, S, Almaraz-Calderon, M L, Avila, D, Baggenstos, P, Collon, N, Hazenshprung, Y, Kashiv, D, Kijel, A, Kreisel, R, Reifarth, D, Santiago-Gonzalez, A, Shor, I, Silverman, R, Talwar, D, Veltum, and R, Vondrasek

Abstract

The ^{36}Ar(n,γ)^{37}Ar (t_{1/2}=35 d) and ^{38}Ar(n,γ)^{39}Ar (269 yr) reactions were studied for the first time with a quasi-Maxwellian (kT∼47 keV) neutron flux for Maxwellian average cross section (MACS) measurements at stellar energies. Gas samples were irradiated at the high-intensity Soreq applied research accelerator facility-liquid-lithium target neutron source and the ^{37}Ar/^{36}Ar and ^{39}Ar/^{38}Ar ratios in the activated samples were determined by accelerator mass spectrometry at the ATLAS facility (Argonne National Laboratory). The ^{37}Ar activity was also measured by low-level counting at the University of Bern. Experimental MACS of ^{36}Ar and ^{38}Ar, corrected to the standard 30 keV thermal energy, are 1.9(3) and 1.3(2) mb, respectively, differing from the theoretical and evaluated values published to date by up to an order of magnitude. The neutron-capture cross sections of ^{36,38}Ar are relevant to the stellar nucleosynthesis of light neutron-rich nuclides; the two experimental values are shown to affect the calculated mass fraction of nuclides in the region A=36-48 during the weak s process. The new production cross sections have implications also for the use of ^{37}Ar and ^{39}Ar as environmental tracers in the atmosphere and hydrosphere.

Published
2018

17. Experimental study of Ar38+α reaction cross sections relevant to the Ca41 abundance in the solar system

Author

K. E. Rehm, Rashi Talwar, P. Mohr, A. D. Ayangeakaa, J. Sethi, C. L. Jiang, Michael Bojazi, Calem Hoffman, C. Ugalde, J. R. Winkelbauer, Daniel Santiago-Gonzalez, Melina Avila, Kalle Auranen, J. L. Harker, Bradley S. Meyer, and S. A. Kuvin

Subjects
Physics, Active target, Crystallography, 010308 nuclear & particles physics, Abundance (chemistry), Physics::Space Physics, 0103 physical sciences, Astrophysics::Solar and Stellar Astrophysics, 010303 astronomy & astrophysics, 01 natural sciences, Energy (signal processing)
Abstract

In massive stars, the $^{41}\mathrm{Ca}(n,\ensuremath{\alpha})^{38}\mathrm{Ar}$ and $^{41}\mathrm{K}(p,\ensuremath{\alpha})^{38}\mathrm{Ar}$ reactions have been identified as the key reactions governing the abundance of $^{41}\mathrm{Ca}$, which is considered as a potential chronometer for solar system formation. So far, due to experimental limitations, the $^{41}\mathrm{Ca}(n,\ensuremath{\alpha})^{38}\mathrm{Ar}$ reaction rate is solely based on statistical model calculations. In the present study, we have measured the time-inverse $^{38}\mathrm{Ar}(\ensuremath{\alpha},n)^{41}\mathrm{Ca}$ and $^{38}\mathrm{Ar}(\ensuremath{\alpha},p)^{41}\mathrm{K}$ reactions using an active target detector. The reactions were studied in inverse kinematics using a 133-MeV $^{38}\mathrm{Ar}$ beam and $^{4}\mathrm{He}$ as the active-gas target. Both excitation functions were measured simultaneously in the energy range of $6.8\ensuremath{\le}{E}_{\mathrm{c}.\mathrm{m}.}\ensuremath{\le}9.3$ MeV. Using detailed balance the $^{41}\mathrm{Ca}(n,\ensuremath{\alpha})^{38}\mathrm{Ar}$ and $^{41}\mathrm{K}(p,\ensuremath{\alpha})^{38}\mathrm{Ar}$ reaction rates were determined, which suggested a 20% increase in the $^{41}\mathrm{Ca}$ yield from massive stars.

Published
2018
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18. An RF beam sweeper for purifying in-flight produced secondary ion beams at ATLAS

Author

S. I. Sharamentov, J.M. Bogaty, K. E. Rehm, and R. C. Pardo

Subjects
Radioactive ion beams, Physics, Nuclear and High Energy Physics, Ion beam, biology, business.industry, biology.organism_classification, Ion, Momentum, medicine.anatomical_structure, Optics, Atlas (anatomy), medicine, Physics::Accelerator Physics, Sweeper, Laser beam quality, business, Instrumentation, Beam (structure)
Abstract

A new large-acceptance RF beam sweeper was designed, constructed and put into operation with the goal to remove the energy-degraded primary beams tails from radioactive beams (RIB) produced by in-flight transfer or charge-exchange reactions. The system makes use of the velocity difference between the RIB beam of interest and the remaining tails of the primary beam after momentum selection by a bending magnet. The time-delayed primary beam components are deflected vertically out of the beam path by the RF sweeper, significantly reducing the stable beam background. Beam purity for the in-flight radioactive ion beams as high as 96% has been achieved with this system.

Published
2015
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19. A recoil separator for nuclear astrophysics SECAR

Author

Michael Wiescher, U. Hager, Manoel Couder, Uwe Greife, Hendrik Schatz, D. W. Bardayan, Michael Scott Smith, K. E. Rehm, G. P. A. Berg, J. C. Blackmon, Kelly Chipps, Al Zeller, Fernando Montes, and Christopher Wrede

Subjects
Physics, Nuclear and High Energy Physics, Wien filter, Isotope, Inverse kinematics, 010308 nuclear & particles physics, Radiative capture, 01 natural sciences, Recoil separator, Ion, Nuclear physics, 0103 physical sciences, Nuclear astrophysics, Radiative transfer, Physics::Atomic Physics, Nuclear Experiment, 010306 general physics, Instrumentation
Abstract

A recoil separator SECAR has been designed to study radiative capture reactions relevant for the astrophysical rp-process in inverse kinematics for the Facility for Rare Isotope Beams (FRIB). We describe the design, layout, and ion optics of the recoil separator and present the status of the project.

Published
2016
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20. Reaction rate for carbon burning in massive stars

Author

Xiao Fang, Rashi Talwar, John P. Greene, Martín Alcorta, Claudio Ugalde, T. Lauritsen, Brian Bucher, Kalle Auranen, A. D. Ayangeakaa, S. Zhu, B. P. Kay, D. Seweryniak, S. T. Marley, B. B. Back, M. Heine, C. L. Jiang, J. Sethi, L. Morris, D. Bourgin, D. Montanari, A. Lefebvre-Schuhl, S. Bottoni, F. Haas, Clayton Dickerson, Sergio Almaraz-Calderon, K. E. Rehm, D. G. Jenkins, G. Fruet, S. A. Kuvin, B. DiGiovine, C. M. Deibel, C. R. Hoffman, Daniel Santiago-Gonzalez, S. Courtin, R. C. Pardo, X. Tang, M. P. Carpenter, R. V. F. Janssens, Melina Avila, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects
Physics, Fusion, Isotope, 010308 nuclear & particles physics, S-factor, chemistry.chemical_element, 7. Clean energy, 01 natural sciences, Reaction rate, Nuclear physics, Critical phase, Stars, Physique [physics]/Astrophysique [astro-ph], chemistry, 13. Climate action, Nucleosynthesis, 0103 physical sciences, lipids (amino acids, peptides, and proteins), 010306 general physics, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Carbon
Abstract

International audience; Carbon burning is a critical phase for nucleosynthesis in massive stars. The conditions for igniting this burning stage, and the subsequent isotope composition of the resulting ashes, depend strongly on the reaction rate for C12+C12 fusion at very low energies. Results for the cross sections for this reaction are influenced by various backgrounds encountered in measurements at such energies. In this paper, we report on a new measurement of C12+C12 fusion cross sections where these backgrounds have been minimized. It is found that the astrophysical S factor exhibits a maximum around Ecm=3.5–4.0 MeV, which leads to a reduction of the previously predicted astrophysical reaction rate.

Published
2018
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21. Study of α-particle induced reactions using the MUSIC detector

Author

R. C. Pardo, K. E. Rehm, O. Nusair, J. Lai, Daniel Santiago-Gonzalez, Claudio Ugalde, Clayton Dickerson, A. D. Ayangeakaa, Rashi Talwar, B. P. Kay, Calem Hoffman, C. L. Jiang, Sergio Almaraz-Calderon, and Melina Avila

Subjects
Active target, Reaction rate, Physics, Work (thermodynamics), SIMPLE (dark matter experiment), Ionization chamber, Detector, Atomic physics, Nuclear Experiment, α particles, Intensity (heat transfer)
Abstract

Reaction rates involving α-particles are known to be important in different astrophysical scenarios. Direct measurements of these reactions at relevant astrophysical energies are experimentally challenging. This is due to the typically small cross sections of these reactions and the experimental difficulties associated with low intensity radioactive beams needed to study them. As a consequence, most of these reaction rates are still unknown. The MUlti-Sampling Ionization Chamber (MUSIC) detector, a simple and highly efficient active target system, has been developed for measurements of (α, n) and (α, p) reactions. Recent results on the direct measurement of (α, p) and (α, n) reactions in the MUSIC detector and future possibilities are presented in this work.

Published
2018
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22. Nuclear Astrophysics Studies with an Isomeric 26Alm Beam

Author

Clayton Dickerson, C. L. Jiang, B. P. Kay, Melina Avila, K. E. Rehm, C. M. Deibel, Calem Hoffman, R. C. Pardo, Rashi Talwar, Benjamin Asher, Daniel Santiago-Gonzalez, Claudio Ugalde, N. Gerken, K. Hanselman, A. D. Ayangeakaa, O. Nusair, A.A. Chen, Sergio Almaraz-Calderon, and S. A. Kuvin

Subjects
Nuclear physics, Physics, Nuclear astrophysics, Atomic physics, Beam (structure)
Published
2017
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23. Study of the Alm26(d,p)Al27 Reaction and the Influence of the Al26 0+ Isomer on the Destruction of Al26 in the Galaxy

Author

Melina Avila, Sergio Almaraz-Calderon, N. Gerken, O. Nusair, Claudio Ugalde, Rashi Talwar, A. D. Ayangeakaa, S. Bottoni, S. A. Kuvin, A. Chen, C. L. Jiang, Catherine Deibel, Clayton Dickerson, R. C. Pardo, K. E. Rehm, J. Sethi, B. P. Kay, Calem Hoffman, Daniel Santiago-Gonzalez, and K. Hanselman

Subjects
Interstellar medium, Physics, Supernova, Proton, 010308 nuclear & particles physics, Nucleosynthesis, 0103 physical sciences, General Physics and Astronomy, Asymptotic giant branch, Atomic physics, 010303 astronomy & astrophysics, 01 natural sciences, Galaxy
Abstract

The existence of $^{26}\mathrm{Al}$ (${t}_{1/2}=7.17\ifmmode\times\else\texttimes\fi{}{10}^{5}\text{ }\text{ }\mathrm{yr}$) in the interstellar medium provides a direct confirmation of ongoing nucleosynthesis in the Galaxy. The presence of a low-lying ${0}^{+}$ isomer (${^{26}\mathrm{Al}}^{m}$), however, severely complicates the astrophysical calculations. We present for the first time a study of the ${^{26}\mathrm{Al}}^{m}(d,p)^{27}\mathrm{Al}$ reaction using an isomeric $^{26}\mathrm{Al}$ beam. The selectivity of this reaction allowed the study of $\ensuremath{\ell}=0$ transfers to $T=1/2$, and $T=3/2$ states in $^{27}\mathrm{Al}$. Mirror symmetry arguments were then used to constrain the ${^{26}\mathrm{Al}}^{m}(p,\ensuremath{\gamma})^{27}\mathrm{Si}$ reaction rate and provide an experimentally determined upper limit of the rate for the destruction of isomeric $^{26}\mathrm{Al}$ via radiative proton capture reactions, which is expected to dominate the destruction path of ${^{26}\mathrm{Al}}^{m}$ in asymptotic giant branch stars, classical novae, and core collapse supernovae.

Published
2017
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24. Cross section measurements in the $^{12}$C+$^{12}$C system

Author

S. Della Negra, Sergio Almaraz-Calderon, Oliver S. Kirsebom, B. Bucher, C. L. Jiang, R. V. F. Janssens, Anne Meyer, Rashi Talwar, X.D. Tang, John P. Greene, B. B. Back, M. Heine, G. Fruet, X. Fang, Fairouz Hammache, D. J. Henderson, S. A. Kuvin, P. Adsley, Catherine Deibel, M. Rudigier, Kalle Auranen, S. Zhu, S. Courtin, M. Albers, D. Bourgin, M. P. Carpenter, Martín Alcorta, D. Seweryniak, Daniel Santiago-Gonzalez, D. Montanari, F. Haas, B. P. Kay, Calem Hoffman, P. H. Regan, D. G. Jenkins, P. F. Bertone, J. Sethi, C. Stodel, Claudio Ugalde, A. Lefebvre-Schuhl, J. Lesrel, A. D. Ayangeakaa, Clayton Dickerson, K. E. Rehm, B. DiGiovine, L. Morris, N. de Séréville, R. C. Pardo, Melina Avila, T. Lauritsen, S. Bottoni, S. T. Marley, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Grand Accélérateur National d'Ions Lourds (GANIL), Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Centre de Sciences Nucléaires et de Sciences de la Matière (CSNSM), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Physics, 010308 nuclear & particles physics, QC1-999, Measure (physics), Aucun, chemistry.chemical_element, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Coincidence, law.invention, Nuclear physics, Ignition system, Cross section (physics), chemistry, 13. Climate action, law, 0103 physical sciences, Nuclear astrophysics, Nuclear fusion, 010306 general physics, Carbon
Abstract

International audience; The 12C+12C fusion reaction is one of the most important for nuclear astrophysics since it determines the carbon ignition in stellar environments. Two experiments which make use of the gamma-particle coincidence technique to measure the 12C+12C S-factors at deep sub barrier energies are discussed. Results are presented showing a decrease of the S-factor below Ec.m. = 3 MeV.

Published
2017
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25. Study of the ^{26}Al^{m}(d,p)^{27}Al Reaction and the Influence of the ^{26}Al 0^{+} Isomer on the Destruction of ^{26}Al in the Galaxy

Author

S, Almaraz-Calderon, K E, Rehm, N, Gerken, M L, Avila, B P, Kay, R, Talwar, A D, Ayangeakaa, S, Bottoni, A A, Chen, C M, Deibel, C, Dickerson, K, Hanselman, C R, Hoffman, C L, Jiang, S A, Kuvin, O, Nusair, R C, Pardo, D, Santiago-Gonzalez, J, Sethi, and C, Ugalde

Abstract

The existence of ^{26}Al (t_{1/2}=7.17×10^{5} yr) in the interstellar medium provides a direct confirmation of ongoing nucleosynthesis in the Galaxy. The presence of a low-lying 0^{+} isomer (^{26}Al^{m}), however, severely complicates the astrophysical calculations. We present for the first time a study of the ^{26}Al^{m}(d,p)^{27}Al reaction using an isomeric ^{26}Al beam. The selectivity of this reaction allowed the study of ℓ=0 transfers to T=1/2, and T=3/2 states in ^{27}Al. Mirror symmetry arguments were then used to constrain the ^{26}Al^{m}(p,γ)^{27}Si reaction rate and provide an experimentally determined upper limit of the rate for the destruction of isomeric ^{26}Al via radiative proton capture reactions, which is expected to dominate the destruction path of ^{26}Al^{m} in asymptotic giant branch stars, classical novae, and core collapse supernovae.

Published
2017

26. Recent developments in heavy-ion fusion reactions

Author

K. E. Rehm, B.B. Back, C. L. Jiang, and Henning Esbensen

Subjects
Nuclear physics, Physics, Fusion, Physics::Plasma Physics, General Physics and Astronomy, Nuclear fusion, Heavy ion, Superheavy Elements, Nuclear Experiment, Nucleon, Island of stability
Abstract

In this review the main advances in heavy-ion fusion research that have taken place over the last decade are addressed. During this period, experimental studies have been extended to deep subbarrier energies to reveal the unexpected phenomenon of fusion hindrance. The coupled-channels descriptions have been refined to include the effects of nucleon transfer and to account for the fusion hindrance in terms of the ion-ion potential in the strongly overlapping region. Substantial progress has been made in time-dependent Hartree-Fock theory to the point that this approach now can make parameter-free predictions of heavy-ion fusion excitation functions. As several heavy-ion fusion reactions are of crucial importance in late-stage giant-star evolution, these reactions continue to be studied with better experimental and theoretical tools in order to provide improved input to astrophysical models. The effects of loosely bound valence nucleons on the fusion cross sections are the focus of a number of experimental studies involving radioactive beams, which have only recently become available. And finally, as the active field of synthesizing superheavy elements relies on heavy-ion fusion to reach the nuclei of interest, it is important to understand the fusion dynamics that plays a crucial role in both the “cold-fusion” and “hot-fusion” approaches to the superheavy island of stability. Also this area has seen significant progress in several different approaches to the problem of predicting the cross sections for formation and survival of these rare nuclei.

Published
2014
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27. First determination of an astrophysical cross section with a bubble chamber: The N15(α,γ)F19 reaction

Author

D. J. Henderson, K. E. Rehm, Andrew Sonnenschein, R. Raut, Anton Tonchev, Claudio Ugalde, R. J. Holt, A. Robinson, B. DiGiovine, and Gencho Rusev

Subjects
Physics, Nuclear reaction, Nuclear physics, Nuclear and High Energy Physics, Thermonuclear fusion, Luminosity (scattering theory), Orders of magnitude (time), Dark matter, Bubble chamber, Resonance (particle physics), Beam (structure)
Abstract

We have devised a technique for measuring some of the most important nuclear reactions in stars which we expect to provide considerable improvement over previous experiments. Adapting ideas from dark matter search experiments with bubble chambers, we have found that a superheated liquid is sensitive to recoils produced from γ rays photodisintegrating the nuclei of the liquid. The main advantage of the new target-detector system is a gain in yield of six orders of magnitude over conventional gas targets due to the higher mass density of liquids. Also, the detector is practically insensitive to the γ -ray beam itself, thus allowing it to detect only the products of the nuclear reaction of interest. The first set of tests of a superheated target with a narrow bandwidth γ -ray beam was completed and the results demonstrate the feasibility of the scheme. The new data are successfully described by an R-matrix model using published resonance parameters. With the increase in luminosity of the next generation γ -ray beam facilities, the measurement of thermonuclear rates in the stellar Gamow window would become possible.

Published
2013
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28. How well do we understand the reaction rate of C burning?

Author

S. Zhu, M. Heine, D. Bourgin, Kalle Auranen, F. Haas, D. G. Jenkins, Brian Bucher, B. DiGiovine, S. Bottoni, B. B. Back, Melina Avila, L. Morris, C. L. Jiang, Martín Alcorta, Rashi Talwar, J. P. Greene, K. E. Rehm, R. V. F. Janssens, Xiao Fang, S. T. Marley, Jaswinder K Sethi, R. C. Pardo, A. Lefebvre-Schuhl, T. Lauritsen, D. J. Henderson, Clayton Dickerson, Claudio Ugalde, A. D. Ayangeakaa, D. Montanari, Sergio Almaraz-Calderon, S. A. Kuvin, D. Seweryniak, G. Fruet, S. Courtin, B. P. Kay, X. Tang, M. Albers, Catherine Deibel, Daniel Santiago-Gonzalez, M. P. Carpenter, Calem Hoffman, and P. F. Bertone

Subjects
Excitation function, Physics, Fusion, 010308 nuclear & particles physics, QC1-999, Aucun, chemistry.chemical_element, 01 natural sciences, Measure (mathematics), Coincidence, Reaction rate, Cross section (physics), chemistry, 0103 physical sciences, Atomic physics, 010306 general physics, Stellar evolution, Carbon
Abstract

Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route for the production of heavier elements. A particle-γ coincidence technique that minimizes the backgrounds to which this reaction is subject and provides reliable cross sections has been used at the Argonne National Laboratory to measure fusion cross-sections at deep sub-barrier energies in the 12 C+12 C system. The corresponding excitation function has been extracted down to a cross section of about 6 nb. This indicates the existence of a broad S-factor maximum for this system. Experimental results are presented and discussed.

Published
2017
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29. New AMS method to measure the atom ratio 146Sm/147Sm for a half-life determination of 146Sm

Author

Matthew Bowers, D. J. Henderson, C. Schmitt, C. L. Jiang, K. E. Rehm, Michael Paul, Takashi Nakanishi, John P. Greene, Philippe Collon, Claudio Ugalde, R. C. Pardo, X. D. Tang, N. Patel, Richard Vondrasek, Stéphane Goriely, B. P. Kay, S. T. Marley, Catherine Deibel, Martín Alcorta, R. Scott, Yoav Kashiv, Donald Robertson, Norikazu Kinoshita, H-Y Lee, and B. DiGiovine

Subjects
Nuclear and High Energy Physics, Chemistry, Attenuation, Detector, Accelerator mass spectrometry, Superconducting linear accelerator, Physique atomique et nucléaire, ECR ion source, Ion, Nuclear physics, medicine.anatomical_structure, Atlas (anatomy), Atom, medicine, Nuclide, 146Sm, Instrumentation, Beam (structure)
Abstract

The extinct p-process nuclide 146Sm (t1/2 = 103 ± 5 Myr) is known to have been present in the Early-Solar System and has been proposed as an astrophysical chronometer. 146Sm is also intensely used to date meteorite and planetary differentiation processes, enhancing the importance of an accurate knowledge of the 146Sm half-life. We are engaged in a new determination of the 146Sm half-life in which the 146Sm/147Sm atom ratio is determined by accelerator mass spectrometry at the ATLAS facility of Argonne National Laboratory. In order to reduce systematic errors in the AMS determination of the 146Sm/147Sm ratios (in the range of 10-7-10-9), 146Sm and 147Sm ions were alternately counted in the same detector in the focal plane of a gas-filled magnet, respectively in continuous-wave and attenuated mode. Quantitative attenuation is obtained with the 12 MHz pulsed and ns-bunched ATLAS beam by chopping beam pulses with an RF sweeper in a ratio (digitally determined) down to 1:106. The experiments and preliminary results are discussed. © 2012 Elsevier B.V. All rights reserved., SCOPUS: cp.j, info:eu-repo/semantics/published

Published
2013
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30. Experimental study of the astrophysically important Na23(α,p)Mg26 and Na23(α,n)Al26 reactions

Author

Daniel Santiago-Gonzalez, Sergio Almaraz-Calderon, K. E. Rehm, O. Nusair, Clayton Dickerson, B. P. Kay, Calem Hoffman, Rashi Talwar, Melina Avila, C. L. Jiang, Claudio Ugalde, A. D. Ayangeakaa, J. Lai, and R. C. Pardo

Subjects
Physics, Active target, Crystallography, 010308 nuclear & particles physics, 0103 physical sciences, Center of mass, Atomic physics, 010303 astronomy & astrophysics, 01 natural sciences, Energy (signal processing)
Abstract

The $^{23}\mathrm{Na}(\ensuremath{\alpha},p)^{26}\mathrm{Mg}$ and $^{23}\mathrm{Na}(\ensuremath{\alpha},n)^{26}\mathrm{Al}$ reactions are important for our understanding of the $^{26}\mathrm{Al}$ abundance in massive stars. The aim of this work is to report on a direct and simultaneous measurement of these astrophysically important reactions using an active target system. The reactions were investigated in inverse kinematics using $^{4}\mathrm{He}$ as the active target gas in the detector. We measured the excitation functions in the energy range of about 2 to 6 MeV in the center of mass. We have found that the cross sections of the $^{23}\mathrm{Na}(\ensuremath{\alpha},p)^{26}\mathrm{Mg}$ and the $^{23}\mathrm{Na}(\ensuremath{\alpha},n)^{26}\mathrm{Al}$ reactions are in good agreement with previous experiments and with statistical-model calculations. The astrophysical reaction rate of the $^{23}\mathrm{Na}(\ensuremath{\alpha},n)^{26}\mathrm{Al}$ reaction has been reevaluated and it was found to be larger than the recommended rate.

Published
2016
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31. Moments of fusion-barrier distributions

Author

K. E. Rehm, B. B. Back, G. Montagnoli, C. L. Jiang, A. M. Stefanini, and Henning Esbensen

Subjects
Physics, Fusion, 010308 nuclear & particles physics, Coulomb barrier, Second moment of area, Radius, Coupling (probability), 01 natural sciences, Distribution (mathematics), 0103 physical sciences, Nuclear fusion, Atomic physics, 010306 general physics, Second derivative
Abstract

A study of fusion-barrier distributions through an analysis of their moments is presented. The moments can be obtained from least-squares fits of the energy-weighted fusion cross sections without the need of calculating second derivatives. The zeroth and first moments determine the fusion radius $R$ and the Coulomb barrier ${V}_{C}$. These two quantities are the same as the parameters $R$ and ${V}_{C}$ that are used in the well-known expression, $E\ensuremath{\sigma}=\ensuremath{\pi}{R}^{2}(E\ensuremath{-}{V}_{C})$, for the fusion cross section at high energies. The second and third moments, ${M}_{2}$ and ${M}_{3}$, determine the width and skewness of the barrier distribution, respectively. From these global parameters new correlations for the study of heavy-ion-induced fusion reactions can be obtained. Systems exhibiting a large coupling to transfer reactions show a small fusion radius as well as a large second moment. A negative third moment is correlated with a prolate deformation of the target nucleus.

Published
2016
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32. Psychological stress moderates the relationship between running volume and CD4+ T cell subpopulations

Author

K E, Rehm, I, Sunesara, M T, Tull, and G D, Marshall

Subjects
Adult, CD4-Positive T-Lymphocytes, Male, Interferon-gamma, Physical Endurance, Humans, Female, Interleukin-4, T-Lymphocytes, Regulatory, Stress, Psychological, Running
Abstract

Endurance-based exercise training can lead to alterations in components of the immune system, but it is unknown how psychological stress (another potent immunomodulator) may impact these changes. The purpose of this study was to determine the moderating role of psychological stress on exercise-induced immune changes. Twenty-nine recreational runners were recruited for this study four weeks before completing a marathon. Each subject reported: weekly training volume (miles/wk) for the week prior to the study visit; completed the Perceived Stress Scale (PSS), the state version of the State-Trait Anxiety Inventory (STAI) and the Penn State Worry Questionnaire (PSWQ); and donated blood for assessment of CD4+ T cell subpopulations and mitogen-induced cytokine production. Participants ran an average of 30 (±13.4) miles (1 mile=1.6 km) per week. Average values (SD) for immune biomarkers were: regulatory T cells (Treg), 3.2% (±1.2%); type 1 regulatory cells (Tr1), 27.1% (±8.3%); T helper 3 (Th3), 1.8% (±0.7%); interferon gamma (IFNγ), 3.1 pg/ml (±1.0); interleukin (IL)-4, 1.4 pg/ml (±1.1); IFNγ/IL-4, 8.6 (±1.2); IL-10, 512 pg/ml (±288). There was a significant relationship between running volume and both Treg cell numbers (slope of the regression line (β)=0.05, p less than 0.001) and IL-10 production β=-10.6, p=0.002), and there was a trending relationship between running volume and Tr1 cell numbers (β=-0.2%, p=0.064). Perceived stress was a trending moderator of the running volume-Treg relationship, whereas worry was a significant moderator of the running volume-IFNγ and running volume-IFNγ/IL-4 relationships. These data indicate that various forms of psychological stress can impact endurance exercise-based changes in certain immune biomarkers. These changes may reflect an increased susceptibility to clinical risks in some individuals.

Published
2016

33. High-sensitivity measurement ofHe3−He4isotopic ratios for ultracold neutron experiments

Author

Michael Paul, P. R. Huffman, K. E. Rehm, Liang Yang, R. Scott, R. C. Vondrasek, Michael G. Huber, R. V. F. Janssens, N. Abrams, C.M. O'Shaughnessy, C. Swank, C. L. Jiang, Hans P. Mumm, R. C. Pardo, C.R. Huffer, K.W. Schelhammer, Catherine Deibel, and W. Bauder

Subjects
Physics, Neutron electric dipole moment, 010308 nuclear & particles physics, Orders of magnitude (temperature), chemistry.chemical_element, Ranging, Mass spectrometry, 01 natural sciences, Nuclear physics, chemistry, 0103 physical sciences, Neutron, Sensitivity (control systems), 010306 general physics, Helium, Order of magnitude
Abstract

Research efforts ranging from studies of solid helium to searches for a neutron electric dipole moment require isotopically purified helium with a ratio of ^3He to ^4He at levels below that which can be measured using traditional mass spectroscopy techniques. We demonstrate an approach to such a measurement using accelerator mass spectroscopy, reaching the 10^(−14) level of sensitivity, several orders of magnitude more sensitive than other techniques. Measurements of ^3He/^4He in samples relevant to the measurement of the neutron lifetime indicate the need for substantial corrections. We also argue that there is a clear path forward to sensitivity increases of at least another order of magnitude.

Published
2016
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34. Structure ofC14andB14from theC14,15(d,He3)B13,14reactions

Author

S. Bedoor, R. C. Pardo, M. Alcorta, A. H. Wuosmaa, C. M. Deibel, P. F. Bertone, J. P. Schiffer, D. V. Shetty, D. G. McNeel, B.B. Back, M. Albers, J.C. Lighthall, S. T. Marley, Sergio Almaraz-Calderon, K. E. Rehm, and C. R. Hoffman

Subjects
Physics, Proton, 010308 nuclear & particles physics, Excited state, 0103 physical sciences, Structure (category theory), Physics::Accelerator Physics, Atomic physics, 010306 general physics, National laboratory, Ground state, 01 natural sciences
Abstract

We have studied the $^{14,15}\mathrm{C}(d,^{3}\mathrm{He})^{13,14}\mathrm{B}$ proton-removing reactions in inverse kinematics. The $(d,^{3}\mathrm{He})$ reaction probes the proton occupation of the target ground state, and also provides spectroscopic information about the final states in $^{13,14}\mathrm{B}$. The experiments were performed using $^{14,15}\mathrm{C}$ beams from the ATLAS accelerator at Argonne National Laboratory. The reaction products were analyzed with the HELIOS device. Angular distributions were obtained for transitions from both reactions. The $^{14}\mathrm{C}$-beam data reveal transitions to excited states in $^{13}\mathrm{B}$ that suggest configurations with protons outside the $\ensuremath{\pi}(0{p}_{3/2})$ orbital, and some possibility of proton cross-shell $0p\text{\ensuremath{-}}1s0d$ excitations, in the $^{14}\mathrm{C}$ ground state. The $^{15}\mathrm{C}$-beam data confirm the existence of a broad ${2}^{\ensuremath{-}}$ excited state in $^{14}\mathrm{B}$. The experimental data are compared to the results of shell-model calculations.

Published
2016
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35. Measurements of fusion cross-sections in 12C+12C at low beam energies using a particle- coincidence technique

Author

S. Zhu, T. Lauritsen, D. J. Henderson, B. Bucher, X. D. Tang, D. Seweryniak, Xiao Fang, Claudio Ugalde, C. J. Lister, R. V. F. Janssens, Philippe Collon, Martín Alcorta, Michael Paul, K. E. Rehm, John P. Greene, S. T. Marley, R. C. Pardo, B. DiGiovine, B. B. Back, Catherine Deibel, and C. L. Jiang

Subjects
Nuclear physics, Physics, Nuclear and High Energy Physics, Fusion, Measure (physics), Particle, Gammasphere, Instrumentation, Coincidence, Beam (structure)
Abstract

A particle- γ coincidence technique has been used to measure the fusion cross-section in the system 12C+12C at low beam energies. Based on these results, it should be possible to measure this important fusion cross-section down to the 10 pb level within a week-long run.

Published
2012
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36. The use of the gas-filled magnet technique for the detection of medium mass ions

Author

Gary Zinkann, K. E. Rehm, John P. Greene, J. O. Fernández Niello, R. C. Pardo, Catherine Deibel, Michael Paul, Claudio Ugalde, Juan Manuel Figueira, Hye Young Lee, S. T. Marley, N. Patel, and C. L. Jiang

Subjects
Physics, Nuclear and High Energy Physics, Energy loss, Rigidity (electromagnetism), Recoil, Cardinal point, Scattering, Magnet, Atomic physics, Instrumentation, Spectrograph, Ion
Abstract

The use of the gas-filled magnet technique for the detection of intermediate mass ( A ∼ 20–40) recoil nuclei produced in (p, α ) reactions in inverse kinematics has been investigated. Through a series of calibration measurements with 27 Al, 28,29 Si and 33 S beams the optimum parameterization for calculating the average charge-state distribution in a gas-filled magnet has been determined. By measuring the magnetic rigidity, the time-of-flight and the differential energy loss of the particles at the focal plane of a gas-filled Enge Split Pole spectrograph it was possible to separate and identify the (p, α ) reaction products from elastically scattered particles at very small scattering angles. This technique was then tested by measuring the p( 33 S, 30 P) α and p( 37 K, 34 Cl) α reactions.

Published
2012
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37. Gas cell targets for experiments with radioactive beams

Author

John P. Greene, K. E. Rehm, C. L. Jiang, Bruce J. Zabransky, B. Harss, D. J. Henderson, Michael Paul, and R. C. Pardo

Subjects
Physics, Nuclear reaction, Radioactive ion beams, Nuclear and High Energy Physics, Inverse kinematics, Physics::Instrumentation and Detectors, Particle accelerator, law.invention, Nuclear physics, medicine.anatomical_structure, law, Atlas (anatomy), medicine, Physics::Accelerator Physics, Heavy ion, Nuclear Experiment, Instrumentation, Astrophysics::Galaxy Astrophysics
Abstract

In this paper we discuss the properties of gas cell targets used for the production of radioactive beams via the in-flight technique as well as gas cell targets used for studies of nuclear reactions in inverse kinematics at the ATLAS heavy ion accelerator.

Published
2011
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38. Commissioning of the HELIOS spectrometer

Author

S. T. Marley, B. P. Kay, J. Rohrer, S. J. Freeman, D. V. Shetty, B. B. Back, K. E. Rehm, A.W. Vann, A. H. Wuosmaa, S. Baker, Hye Young Lee, J. P. Schiffer, J. C. Lighthall, and J. R. Winkelbauer

Subjects
Physics, Nuclear and High Energy Physics, Spectrometer, Inverse kinematics, business.industry, HeliOS, Nuclear physics, Proof of concept, Measuring instrument, Orbit (dynamics), Aerospace engineering, National laboratory, business, Instrumentation
Abstract

This paper describes the implementation and commissioning of a device based on a new concept for measurements of nuclear reactions in inverse kinematics. The HELIcal Orbit Spectrometer, HELIOS, was commissioned at Argonne National Laboratory by studying the 28Si(d,p)29Si reaction in inverse kinematics. This experiment served as a proof of principle for this previously untested concept, and was used to verify the response and performance characteristics of HELIOS.

Published
2010
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39. THE HELIOS SPECTROMETER AND THE RADIOACTIVE BEAM PROGRAM AT ARGONNE

Author

S. Baker, Peter Mueller, S. J. Freeman, Jason A. Clark, A. H. Wuosmaa, R. C. Pardo, C. J. Lister, D. V. Shetty, S. Heimsath, A. Woodard, J. Rohrer, Hye Young Lee, B. B. Back, C. M. Deibel, J. R. Winkelbauer, B. DiGiovine, K. E. Rehm, B. P. Kay, J. Snyder, N. Antler, S. T. Marley, A.W. Vann, M. Syrion, J. P. Schiffer, N. J. Goodman, J. C. Lighthall, Z. Grelewicz, and Calem Hoffman

Subjects
Nuclear reaction, Physics, Nuclear and High Energy Physics, Spectrometer, Fission, Nuclear structure, General Physics and Astronomy, Nuclear physics, medicine.anatomical_structure, Atlas (anatomy), medicine, r-process, Nucleon, Beam (structure)
Abstract

The near-term radioactive beam capabilities of ATLAS include radioactive beams produced in flight in a gas cell, or starting in the fall of 2009, re-accelerated beams of 252 Cf fission fragments provided by the new CARIBU injector. The availability of such exotic beams will allow for detailed studies of the single-particle aspects of nuclear structure in neutron-rich nuclei reaching out to the astrophysical r-process path by employing light-ion reactions in inverse kinematics. The HELIOS spectrometer is based on a new concept that is especially well suited for such studies. This concept was recently demonstrated using the reactions D (28 Si , p )29 Si with a (stable) 168 MeV 28 Si beam. Since then D (12 B , p )13 B , D (17 O , p )18 O , and D (15 C , p )16 C have been studied successfully. The combination of neutron-rich beams from CARIBU and the HELIOS spectrometer opens a fertile research area of precision studies of the single particle strengths and collective excitations in exotic nuclei, and is likely to have applications in other reactions as well.

Published
2010
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40. ESTIMATES OF THE ASTROPHYSICAL <font>S</font>-FACTORS FOR PROTON RADIATIVE CAPTURE BY 10<font>B</font> AND 24<font>Mg</font> NUCLEI USING THE ANCs FROM PROTON TRANSFER REACTIONS

Author

G. K. Nie, R. Yarmukhamedov, K. E. Rehm, E. A. Zaparov, A. A. Karakhodzhaev, S. B. Igamov, S. V. Artemov, and N. Burtebaev

Subjects
Physics, Nuclear and High Energy Physics, Proton, Radiative capture, General Physics and Astronomy, Zero-point energy, Nuclear physics, Formalism (philosophy of mathematics), medicine.anatomical_structure, medicine, Neutron, Atomic physics, Ground state, Nucleus
Abstract

The contribution of the direct radiative capture of protons by 10 B and 24 Mg nuclei at low energies to the astrophysical S -factors in the reactions 10 B (p,γ)11 C and 24 Mg (p,γ)25 Al have been calculated within the R-matrix formalism by using empirical proton asymptotical normalization coefficients (ANC). The ANCs for bound proton configurations {10 B +p} and {24 Mg +p} were obtained from the analysis of the reactions (3 He , d). The ANCs were also estimated from the values of the neutron ANCs in the mirror nucleus 25 Mg following the suggestion that the neutron and the proton in the mirror states have equivalent nuclear potentials. It has been found that the S -factor for the reaction 10 B (p,γ)11 C extrapolated to zero energy contributes ~100 keV b to the radiative capture to the ground state of 11 C . For the reaction 24 Mg (p,γ)25 Al the value S(0) gives 58 keV b with a direct capture contribution of 41 keV b .

Published
2010
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41. Comparison of AO Type-B and Type-C Volar Shearing Fractures of the Distal Part of the Radius

Author

Norbert P. Haas, Andreas Wentzensen, Chr Sommer, Beate Hanson, Giulio Lauri, K. H. Winker, Daniel Rikli, J. Sebastiaan Souer, Herwig Drobetz, D. A. Campbell, W. Hintringer, S. P. Chow, Hartmut R. Siebert, Marta Marent-Huber, Jesse B. Jupiter, M. Wagner, Dankward Höntzsch, Laurent Audigé, Stefan Matschke, David Ring, K. E. Rehm, F. Torretta, R. H. Neugebauer, L. C. Teoh, W. Ertel, and M. Plecko

Subjects
Adult, Male, medicine.medical_specialty, Adolescent, Visual analogue scale, Bone Screws, Wrist, Cohort Studies, Young Adult, Grip strength, Forearm, Dash, Bone plate, medicine, Humans, Orthopedic Procedures, Orthopedics and Sports Medicine, Aged, Aged, 80 and over, Subluxation, integumentary system, business.industry, Recovery of Function, General Medicine, Middle Aged, Wrist Injuries, medicine.disease, Surgery, body regions, medicine.anatomical_structure, Orthopedic surgery, Female, Radius Fractures, business, Bone Plates, Follow-Up Studies
Abstract

Background: Fractures of the volar articular margin of the distal part of the radius with volar radiocarpal subluxation (volar shearing, or Barton, fractures) can be accompanied by a fracture of the dorsal metaphyseal cortex. We tested the null hypothesis that there is no difference in wrist function or health status after open reduction and plate-and-screw fixation between volar shearing fractures with a dorsal cortical fracture (complete articular, AO Type C) and those without a dorsal cortical fracture (partial articular, AO Type B). Methods: In a multicenter cohort study, fifty-seven patients with a volar marginal shearing fracture of the distal part of the radius and volar radiocarpal subluxation were followed for at least one year following plate-and-screw fixation. Thirty-seven patients who also had a dorsal metaphyseal cortical fracture (Type-C fracture) were compared with twenty patients who had a partial articular (Type-B) fracture. The two cohorts were analyzed for differences in wrist and forearm motion, grip strength, pain, and the Gartland and Werley, Disabilities of the Arm, Shoulder and Hand (DASH), and Short Form-36 (SF-36) scores at six, twelve, and twenty-four months postoperatively. Differences in mean values and their change over time were determined. Results: There were no significant differences between patients with a Type-B fracture and those with a Type-C fracture with respect to motion, grip strength, or the Gartland and Werley or DASH score at any time point. At six months after the surgery, the patients with a Type-B volar shearing fracture reported a mean score for pain in motion of 0.5 point on a 10-point visual analogue scale compared with 2.2 points for patients with a Type-C fracture (difference in means, 1.7 points [95% confidence interval, 0.7 to 2.6 points]; p < 0.001), but no significant difference was seen at twelve or twenty-four months. Conclusions: Volar shearing fractures are usually complete articular, Type-C injuries. Patients with a Type-C volar shearing fracture experience more pain during early recovery, but ultimately their outcome is comparable with that for patients with a Type-B (partial articular) volar shearing fracture.

Published
2009
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42. Reactions on the surface and inside of neutron stars

Author

K. E. Rehm

Subjects
Radioactive ion beams, Physics, Nuclear reaction, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, QC1-999, Astrophysics, 01 natural sciences, Nuclear physics, Neutron star, 0103 physical sciences, Physics::Accelerator Physics, 010306 general physics, Nuclear Experiment
Abstract

Measurements from orbiting X-ray satellites during the last decades have provided us with a wealth of information about nuclear reactions thought to occur in the extreme, highdensity environment of neutron stars. With radioactive ion beams from first-generation facilities we have begun to study some of these processes in the laboratory. In this contribution I report on experiments performed with radioactive beams from the ATLAS accelerator at Argonne. I will discuss the nuclear physics of X-ray bursts and super-bursts, the production of in-flight radioactive beams, as well as novel detectors which are used in these experiments.

Published
2016

43. A solenoidal spectrometer for reactions in inverse kinematics

Author

B. B. Back, C. J. Lister, J. P. Schiffer, A. H. Wuosmaa, and K. E. Rehm

Subjects
Physics, Nuclear and High Energy Physics, Spectrometer, Inverse kinematics, Solenoidal vector field, Detector, Physics::Accelerator Physics, Atomic physics, Nuclear Experiment, Instrumentation, Radioactive beam, Magnetic field, Computational physics
Abstract

A new type of spectrometer for the study of reactions in inverse kinematics is proposed, in which the target and detector are placed inside a uniform magnetic field. This device has significant advantages over more conventional approaches to measurements of key reactions, and should prove useful in the study of short-lived nuclei. The technique is directly applicable to existing research programs at present accelerators with secondary beams, and the technique is likely to be important at future radioactive beam facilities.

Published
2007
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44. Experiments in Nuclear Astrophysics

Author

K. E. Rehm

Subjects
Physics, Nuclear and High Energy Physics, Supernova, Computational astrophysics, Field (physics), Astrophysics::High Energy Astrophysical Phenomena, Gamma ray, Nuclear astrophysics, Instrumentation (computer programming), Astrophysics, Radio wave
Abstract

Astrophysics is a rapidly growing field, driven by observations from ground and space-based telescopes, which cover all wavelengths, from radio waves to ultra-high energy gamma rays. Nuclear physics experiments provide critical input parameters, which are important for the interpretation of the observational data. New developments in accelerators and instrumentation during the last years have produced many experimental cross sections, masses and half-lives, needed to describe the new observations. In this contribution recent accomplishments relevant to studies of supernovae will be discussed.

Published
2007
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45. Technological Development for Half-life Measurement of 146Sm Nuclide

Author

H. Amakawa, Tsutomu Ohtsuki, K. E. Rehm, Norikazu Kinoshita, Akihiko Yokoyama, R. C. Pardo, X. D. Tang, L. Jisonna, I. Ahmad, M. Notani, D. J. Henderson, Donald Robertson, Y. Kashiv, Chris Schmitt, N. Patel, C. L. Jiang, T. Hashimoto, Philippe Collon, R. C. Vondrasek, Toshiaki Mitsugashira, Michael Paul, Takashi Nakanishi, R. Scott, Naruto Takahashi, and John P. Greene

Subjects
Nuclear engineering, Environmental science, Nuclide
Published
2007
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47. A Multi-Sampling Ionization Chamber (MUSIC) for measurements of fusion reactions with radioactive beams

Author

Henning Esbensen, O. Nusair, Sergio Almaraz-Calderon, P. F. F. Carnelli, D. J. Henderson, Michael Paul, B. DiGiovine, M. Albers, J. O. Fernández Niello, Martín Alcorta, K. E. Rehm, S. T. Marley, J. Lai, R. C. Pardo, C. L. Jiang, Claudio Ugalde, P. F. Bertone, and T. Palchan-Hazan

Subjects
Excitation function, Physics, Nuclear and High Energy Physics, ACTIVE TARGET DETECTOR, Ciencias Físicas, Detector, Helium ionization detector, RADIOACTIVE BEAMS, Coulomb barrier, Astronomía, MULTI-SAMPLING IONIZATION CHAMBER, Ionization, Ionization chamber, Nuclear fusion, FUSION REACTIONS, Atomic physics, Discharge ionization detector, Instrumentation, CIENCIAS NATURALES Y EXACTAS
Abstract

A detection technique for high-efficiency measurements of fusion reactions with low-intensity radioactive beams was developed. The technique is based on a Multi-Sampling Ionization Chamber (MUSIC) operating as an active target and detection system, where the ionization gas acts as both target and counting gas. In this way, we can sample an excitation function in an energy range determined by the gas pressure, without changing the beam energy. The detector provides internal normalization to the incident beam and drastically reduces the measuring time. In a first experiment we tested the performance of the technique by measuring the 10,13,15C+12C fusion reactions at energies around the Coulomb barrier. Fil: Carnelli, Patricio Francisco Florencio. Argonne National Laboratory; Estados Unidos. Comisión Nacional de Energía Atómica. Gerencia del Área de Investigación y Aplicaciones No Nucleares. Gerencia Física (Centro Atómico Constituyentes). Proyecto Tandar; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Almaraz Calderón, S.. Argonne National Laboratory; Estados Unidos Fil: Rehm, K. E.. Argonne National Laboratory; Estados Unidos Fil: Albers, M.. Argonne National Laboratory; Estados Unidos Fil: Alcorta, M.. Argonne National Laboratory; Estados Unidos Fil: Bertone, P. F.. Argonne National Laboratory; Estados Unidos Fil: Digiovine, B.. Argonne National Laboratory; Estados Unidos Fil: Esbensen, H.. Argonne National Laboratory; Estados Unidos Fil: Fernandez Niello, Jorge Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Comisión Nacional de Energía Atómica. Gerencia del Área de Investigación y Aplicaciones No Nucleares. Gerencia Física (Centro Atómico Constituyentes). Proyecto Tandar; Argentina Fil: Henderson, D.. Argonne National Laboratory; Estados Unidos Fil: Jiang, C. L.. Argonne National Laboratory; Estados Unidos Fil: Lai, J.. Argonne National Laboratory; Estados Unidos Fil: Marley, S. T.. Argonne National Laboratory; Estados Unidos Fil: Nusair, O.. Argonne National Laboratory; Estados Unidos Fil: Palchan Hazan, T.. Argonne National Laboratory; Estados Unidos Fil: Pardo, R.. Argonne National Laboratory; Estados Unidos Fil: Paul, M.. The Hebrew University of Jerusalem; Israel Fil: Ugalde, C.. Argonne National Laboratory; Estados Unidos

Published
2015

48. Fusion measurements of $^{12}$C+$^{12}$C at energies of astrophysical interest

Author

T. Lauritsen, R. V. F. Janssens, D. J. Henderson, B. B. Back, Martín Alcorta, K. E. Rehm, C. L. Jiang, Sergio Almaraz-Calderon, Xiao Fang, R. C. Pardo, B. DiGiovine, John P. Greene, Brian Bucher, J. Lai, D. Seweryniak, D. Montanari, X. D. Tang, A. Lefebvre-Schuhl, M. Paul, Clayton Dickerson, Daniel Santiago-Gonzalez, Melina Avila, Claudio Ugalde, A. D. Ayangeakaa, H. M. David, S. Zhu, S. Courtin, F. Haas, D. G. Jenkins, Catherine Deibel, M. P. Carpenter, D. Bourgin, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects
Physics, Fusion, Range (particle radiation), 010308 nuclear & particles physics, QC1-999, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, 7. Clean energy, Coincidence, Nuclear physics, Supernova, Cross section (physics), Stellar nucleosynthesis, 0103 physical sciences, Nuclear fusion, Gammasphere, 010306 general physics, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]
Abstract

International audience; The cross section of the ^12C+^12C fusion reaction at low energies is of paramount importance for models of stellar nucleosynthesis in different astrophysical scenarios, such as Type Ia supernovae and Xray superbursts, where this reaction is a primary route for the production of heavier elements. In a series of experiments performed at Argonne National Laboratory, using Gammasphere and an array of Silicon detectors, measurements of the fusion cross section of ^12C+^12C were successfully carried out with the gamma and charged-particle coincidence technique in the center-of-mass energy range of 3-5 MeV. These were the first background-free fusion cross section measurements for ^12C+^12C at energies of astrophysical interest. Our results are consistent with previous measurements in the high-energy region; however, our lowest energy measurement indicates a fusion cross section slightly lower than those obtained with other techniques.

Published
2015
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49. Fusion reactions of $^{58,64}Ni$+$^{124}Sn$

Author

F. Galtarossa, F. Haas, Suzana Szilner, T. Mijiatovic, E. Fioretto, Alain Goasduff, M. Mazzocco, R. N. Sagaidak, Henning Esbensen, Fernando Scarlassara, D. Montanari, C. L. Jiang, E. Strano, L. Corradi, Melina Avila, A. M. Stefanini, D. Bourgin, B. B. Back, S. Courtin, Daniel Santiago-Gonzalez, G. Montagnoli, S. Almaraz Calderon, K. E. Rehm, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Sciences Nucléaires et de Sciences de la Matière (CSNSM), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Physics, Nuclear reaction, Coupling, Fusion, 010308 nuclear & particles physics, QC1-999, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Molecular physics, Nuclear physics, transfer reactions, spectrometers, Physics and Astronomy (all), nuclear reactions, fusion, 0103 physical sciences, Nuclear fusion, 010306 general physics
Abstract

Measurements of fusion excitation functions of Ni58+Sn124 and Ni64+Sn124 are extended towards lower energy to cross sections of 1 μb and are compared to detailed coupled-channels calculations. The calculations clearly show the importance of including transfer reactions in a coupled-channels treatment for such heavy systems. This result is different from the conclusion made in a previous article which claimed that the influence of transfer on fusion is not important for fusion reactions of Ni+Sn. In the energy region studied in this experiment no indication of fusion hindrance has been observed, which is consistent with a systematic study of this behavior.

Published
2015
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50. Fusion reactions ofNi58,64+Sn124

Author

A. M. Stefanini, Daniel Santiago-Gonzalez, Melina Avila, Henning Esbensen, Alain Goasduff, Suzana Szilner, Fernando Scarlassara, S. Courtin, G. Montagnoli, F. Haas, E. Strano, D. Bourgin, E. Fioretto, Tea Mijatović, R. N. Sagaidak, Sergio Almaraz-Calderon, L. Corradi, B. B. Back, M. Mazzocco, K. E. Rehm, D. Montanari, F. Galtarossa, and C. L. Jiang

Subjects
Physics, Nuclear and High Energy Physics, Fusion, 010308 nuclear & particles physics, Fission, 0103 physical sciences, Nuclear fusion, Atomic physics, 010306 general physics, 01 natural sciences, Energy (signal processing), Excitation, Lower energy
Abstract

Measurements of fusion excitation functions of Ni-58 + Sn-124 and Ni-64 + Sn-124 are extended towards lower energy to cross sections of 1 mu b and are compared to detailed coupled-channels calculations. The calculations clearly show the importance of including transfer reactions in a coupled-channels treatment for such heavy systems. This result is different from the conclusion made in a previous article which claimed that the influence of transfer on fusion is not important for fusion reactions of Ni + Sn. In the energy region studied in this experiment no indication of fusion hindrance has been observed, which is consistent with a systematic study of this behavior.

Published
2015
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