Your search keyword '"C. Sumithrarachchi"' showing total 29 results

1. Shell evolution approaching the N=20 island of inversion: Structure of 26Na

Author

G.L. Wilson, W.N. Catford, N.A. Orr, C.Aa. Diget, A. Matta, G. Hackman, S.J. Williams, I.C. Celik, N.L. Achouri, H. Al Falou, R. Ashley, R.A.E. Austin, G.C. Ball, J.C. Blackmon, A.J. Boston, H.C. Boston, S.M. Brown, D.S. Cross, M. Djongolov, T.E. Drake, U. Hager, S.P. Fox, B.R. Fulton, N. Galinski, A.B. Garnsworthy, D. Jamieson, R. Kanungo, K.G. Leach, J.N. Orce, C.J. Pearson, M. Porter-Peden, F. Sarazin, E.C. Simpson, S. Sjue, D. Smalley, C. Sumithrarachchi, S. Triambak, C. Unsworth, and R. Wadsworth

Subjects

81V35, Nuclear structure, 26Na, γ-Ray transitions, Transfer reactions, Shell migration, Physics, QC1-999

Abstract

The levels in 26Na with single particle character have been observed for the first time using the d(25Na, pγ) reaction at 5 MeV/nucleon. The measured excitation energies and the deduced spectroscopic factors are in good overall agreement with (0+1)ħω shell model calculations performed in a complete spsdfp basis and incorporating a reduction in the N=20 gap. Notably, the 1p3/2 neutron configuration was found to play an enhanced role in the structure of the low-lying negative parity states in 26Na, compared to the isotone 28Al. Thus, the lowering of the 1p3/2 orbital relative to the 0f7/2 occurring in the neighbouring Z=10 and 12 nuclei – 25,27Ne and 27,29Mg – is seen also to occur at Z=11 and further strengthens the constraints on the modelling of the transition into the island of inversion.

Published

2016

2. Implications of the ^{36}Ca-^{36}S and ^{38}Ca-^{38}Ar difference in mirror charge radii on the neutron matter equation of state

Author

B. A. Brown, K. Minamisono, J. Piekarewicz, H. Hergert, D. Garand, A. Klose, K. König, J. D. Lantis, Y. Liu, B. Maaß, A. J. Miller, W. Nörtershäuser, S. V. Pineda, R. C. Powel, D. M. Rossi, F. Sommer, C. Sumithrarachchi, A. Teigelhöfer, J. Watkins, and R. Wirth

Subjects

Physics, QC1-999

Abstract

Charge radii of the unstable ^{36}Ca and ^{38}Ca nuclei were recently determined and used to compute differences in charge radii between mirror nuclei ΔR_{ch} for the ^{36}Ca−^{36}S and ^{38}Ca−^{38}Ar mirror pairs. Given the correlation between ΔR_{ch} and the slope of the symmetry energy L at the nuclear saturation density, we deduce L=5–70 MeV, which rules out a large fraction of models that predict a “stiff” equation of state. This is the most precise determination of L in this model based on electromagnetic probes of nuclear ground states. The determined range is consistent with earlier analyses from both laboratory experiments and astrophysical observations, including the recent detection of gravitational waves from the merger of two neutron stars.

Published

2020

3. ^{38}K isomer production via fast fragmentation

Author

K. A. Chipps, R. L. Kozub, C. Sumithrarachchi, T. Ginter, T. Baumann, K. Lund, A. Lapierre, A. Villari, F. Montes, S. Jin, K. Schmidt, S. Ayoub, S. D. Pain, and D. Blankstein

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

In radioactive ion beam experiments, beams containing isomers can be of interest in probing nuclear structure and informing astrophysical reaction rates. While the production of mixed in-flight ground state and isomer beams using nucleon transfer can be generally understood through distorted wave Born approximation methodology, low-spin isomer production via fast fragmentation is relatively unstudied. To attain a practical understanding of low-spin isomer production using fast fragmentation beams, a test case of ^{38}K/^{38m}K was studied at the National Superconducting Cyclotron Laboratory’s ReAccelerated Beam facility. Starting from lise++ predictions, the fragmentation momentum distribution was sampled to determine isomer production. In addition, the effects of the gas stopper gradient and charge breeding times were examined. In the case of ^{38}K, isomer production peaks at ∼57%. This maximum is observed just off the lise++ predicted optimum magnetic rigidity, with only small losses in beam intensity within a few percent of this optimum rigidity setting. Control of the isomer fraction was also achieved through the modification of charge breeding times. Fast fragmentation appears to be a feasible method for production of low-spin isomeric beams, but additional study is necessary to better describe the mechanism involved.

Published

2018

4. First two operational years of the electron-beam ion trap charge breeder at the National Superconducting Cyclotron Laboratory

Author

A. Lapierre, G. Bollen, D. Crisp, S. W. Krause, L. E. Linhardt, K. Lund, S. Nash, R. Rencsok, R. Ringle, S. Schwarz, M. Steiner, C. Sumithrarachchi, T. Summers, A. C. C. Villari, S. J. Williams, and Q. Zhao

Subjects

Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The electron-beam ion trap (EBIT) charge breeder of the ReA post-accelerator, located at the National Superconducting Cyclotron Laboratory (Michigan State University), started on-line operation in September 2015. Since then, the EBIT has delivered many pilot beams of stable isotopes and several rare-isotope beams. An operating aspect of the ReA EBIT is the breeding of high charge states to reach high reaccelerated beam energies. Efficiencies in single charge states of more than 20% were measured with ^{39}K^{15+}, ^{85}Rb^{27+}, ^{47}K^{17+}, and ^{34}Ar^{15+}. Producing high charge states demands long breeding times. This reduces the ejection frequency and, hence, increases the number of ions ejected per pulse. Another operating aspect is the ability to spread the distribution in time of the ejected ion pulses to lower the instantaneous rate delivered to experiments. Pulse widths were stretched from a natural 25 μs up to ∼70 ms. This publication reviews the progress of the ReA EBIT system over the years and presents the results of charge-breeding efficiency measurements and pulse-stretching tests obtained with stable- and rare-isotope beams. Studies performed with high sensitivity to identify and quantify stable-isotope contaminants from the EBIT are also presented, along with a novel method for purifying beams.

Published

2018

5. The cyclotron gas stopper at FRIB getting ready for operations

Author

S. Schwarz, C. Sumithrarachchi, G. Bollen, C. Magsig, D.J. Morrissey, J. Ottarson, and A.C.C. Villari

Subjects

Nuclear and High Energy Physics, Instrumentation

Published

2023

6. Beam particle identification and tagging of incompletely stripped heavy beams with HEIST

Author

A. K. Anthony, C. Y. Niu, R. S. Wang, J. Wieske, K. W. Brown, Z. Chajecki, W. G. Lynch, Y. Ayyad, J. Barney, T. Baumann, D. Bazin, S. Beceiro-Novo, J. Boza, J. Chen, K. J. Cook, M. Cortesi, T. Ginter, W. Mittig, A. Pype, M. K. Smith, C. Soto, C. Sumithrarachchi, J. Swaim, S. Sweany, F. C. E. Teh, C. Y. Tsang, M. B. Tsang, N. Watwood, and A. H. Wuosmaa

Subjects

Physics - Instrumentation and Detectors, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, 0103 physical sciences, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Nuclear Experiment (nucl-ex), 010306 general physics, Nuclear Experiment, 01 natural sciences, 7. Clean energy, Instrumentation

Abstract

A challenge preventing successful inverse kinematics measurements with heavy nuclei that are not fully stripped is identifying and tagging the beam particles. For this purpose, the HEavy ISotope Tagger (HEIST) has been developed. HEIST utilizes two micro-channel plate timing detectors to measure time of flight, a multi-sampling ion chamber to measure energy loss, and a high purity Ge detector to identify isomer decays and calibrate the isotope identification system. HEIST has successfully identified $^{198}$Pb and other nearby nuclei at energies of about 75 MeV/A. In the experiment discussed, a typical cut containing 89\% of all $^{198}$Pb$^{+80}$ in the beam had a purity of 86\%. We examine the issues of charge state contamination. The observed charge state populations of these ions are presented and are moderately well described by the charge state model GLOBAL., Comment: The following article has been submitted to Review of Scientific Instruments

Published

2022

7. New ^{59}Fe Stellar Decay Rate with Implications for the ^{60}Fe Radioactivity in Massive Stars

Author

B, Gao, S, Giraud, K A, Li, A, Sieverding, R G T, Zegers, X, Tang, J, Ash, Y, Ayyad-Limonge, D, Bazin, S, Biswas, B A, Brown, J, Chen, M, DeNudt, P, Farris, J M, Gabler, A, Gade, T, Ginter, M, Grinder, A, Heger, C, Hultquist, A M, Hill, H, Iwasaki, E, Kwan, J, Li, B, Longfellow, C, Maher, F, Ndayisabye, S, Noji, J, Pereira, C, Qi, J, Rebenstock, A, Revel, D, Rhodes, A, Sanchez, J, Schmitt, C, Sumithrarachchi, B H, Sun, and D, Weisshaar

Abstract

The discrepancy between observations from γ-ray astronomy of the ^{60}Fe/^{26}Al γ-ray flux ratio and recent calculations is an unresolved puzzle in nuclear astrophysics. The stellar β-decay rate of ^{59}Fe is one of the major nuclear uncertainties impeding us from a precise prediction. The important Gamow-Teller strengths from the low-lying states in ^{59}Fe to the ^{59}Co ground state are measured for the first time using the exclusive measurement of the ^{59}Co(t,^{3}He+γ)^{59}Fe charge-exchange reaction. The new stellar decay rate of ^{59}Fe is a factor of 3.5±1.1 larger than the currently adopted rate at T=1.2 GK. Stellar evolution calculations show that the ^{60}Fe production yield of an 18 solar mass star is decreased significantly by 40% when using the new rate. Our result eliminates one of the major nuclear uncertainties in the predicted yield of ^{60}Fe and alleviates the existing discrepancy of the ^{60}Fe/^{26}Al ratio.

Published

2020

8. Multiple Shape Coexistence in ^{110,112}Cd

Author

P E, Garrett, T R, Rodríguez, A Diaz, Varela, K L, Green, J, Bangay, A, Finlay, R A E, Austin, G C, Ball, D S, Bandyopadhyay, V, Bildstein, S, Colosimo, D S, Cross, G A, Demand, P, Finlay, A B, Garnsworthy, G F, Grinyer, G, Hackman, B, Jigmeddorj, J, Jolie, W D, Kulp, K G, Leach, A C, Morton, J N, Orce, C J, Pearson, A A, Phillips, A J, Radich, E T, Rand, M A, Schumaker, C E, Svensson, C, Sumithrarachchi, S, Triambak, N, Warr, J, Wong, J L, Wood, and S W, Yates

Abstract

From detailed spectroscopy of ^{110}Cd and ^{112}Cd following the β^{+}/electron-capture decay of ^{110,112}In and the β^{-} decay of ^{112}Ag, very weak decay branches from nonyrast states are observed. The transition rates determined from the measured branching ratios and level lifetimes obtained with the Doppler-shift attenuation method following inelastic neutron scattering reveal collective enhancements that are suggestive of a series of rotational bands. In ^{110}Cd, a γ band built on the shape-coexisting intruder configuration is suggested. For ^{112}Cd, the 2^{+} and 3^{+} intruder γ-band members are suggested, the 0_{3}^{+} band is extended to spin 4^{+}, and the 0_{4}^{+} band is identified. The results are interpreted using beyond-mean-field calculations employing the symmetry conserving configuration mixing method with the Gogny D1S energy density functional and with the suggestion that the Cd isotopes exhibit multiple shape coexistence.

Published

2019

9. Multiple Shape Coexistence in 110,112Cd and Beyond Mean Field Calculations

Author

P.E. Garrett, T.R. Rodríguez, A. Diaz Varela, K.L. Green, J. Bangay, A. Finlay, R.A.E. Austin, G.C. Ball, D.S. Bandyopadhyay, V. Bildstein, S. Colosimo, D.S. Cross, G.A. Demand, P. Finlay, A.B. Garnsworthy, G.F. Grinyer, G. Hackman, B. Jigmeddorj, J. Jolie, W.D. Kulp, K.G. Leach, A.C. Morten, J.N. Orce, C.J. Person, A.A. Phillips, A.J. Radich, E.T. Rand, M.A. Schumaker, C.E. Svensson, C. Sumithrarachchi, S. Triambak, N. Warr, J. Wong, J.L. Wood, and S.W. Yates

Subjects

Physics, History, Mean field theory, Condensed matter physics, Computer Science Applications, Education

Abstract

Detailed spectroscopy employing the β +/EC decay of 110,112In and the β − decay of 112Ag has been used to study the excited states of 110,112Cd. Low-energy decay branches from highly excited states have been observed and, combined with level lifetimes from the ( n , n ’ γ ) reaction, permit B(E2) values to be determined thus revealing rotational-like bands built on excited 0+ states and γ bands built on the ground and the shape-coexisting intruder states. The excitation energies of the 0 4 + states appear incompatible with that expected for a pure π(4p6h) configuration. The experimental results for the 0+ excited states are compared with beyond-mean-field calculations that suggest they possess different shapes, including prolate, oblate, and triaxial.

Published

2020

10. Charge Radii of Neutron Deficient ^{52,53}Fe Produced by Projectile Fragmentation

Author

K, Minamisono, D M, Rossi, R, Beerwerth, S, Fritzsche, D, Garand, A, Klose, Y, Liu, B, Maaß, P F, Mantica, A J, Miller, P, Müller, W, Nazarewicz, W, Nörtershäuser, E, Olsen, M R, Pearson, P-G, Reinhard, E E, Saperstein, C, Sumithrarachchi, and S V, Tolokonnikov

Abstract

Bunched-beam collinear laser spectroscopy is performed on neutron deficient ^{52,53}Fe prepared through in-flight separation followed by a gas stopping. This novel scheme is a major step to reach nuclides far from the stability line in laser spectroscopy. Differential mean-square charge radii δ⟨r^{2}⟩ of ^{52,53}Fe are determined relative to stable ^{56}Fe as δ⟨r^{2}⟩^{56,52}=-0.034(13) fm^{2} and δ⟨r^{2}⟩^{56,53}=-0.218(13) fm^{2}, respectively, from the isotope shift of atomic hyperfine structures. The multiconfiguration Dirac-Fock method is used to calculate atomic factors to deduce δ⟨r^{2}⟩. The values of δ⟨r^{2}⟩ exhibit a minimum at the N=28 neutron shell closure. The nuclear density functional theory with Fayans and Skyrme energy density functionals is used to interpret the data. The trend of δ⟨r^{2}⟩ along the Fe isotopic chain results from an interplay between single-particle shell structure, pairing, and polarization effects and provides important data for understanding the intricate trend in the δ⟨r^{2}⟩ of closed-shell Ca isotopes.

Published

2016

11. Investigating Single-Particle Structure in 26Na Using the New SHARC Array

Author

H Al-Falou, W. N. Catford, S. M. Brown, A. J. Boston, A. B. Garnsworthy, G. L. Wilson, Rae Austin, M. Djongolov, S. J. Williams, M. Porter-Peden, N. A. Orr, B. R. Fulton, D. S. Cross, K. G. Leach, C. Sumithrarachchi, J. N. Orce, F. Sarazin, R. Kanungo, C. Unsworth, D. S. Jamieson, André Palma da Cunha Matta, R. Ashley, P. Adsley, S. Triambak, D. Smalley, T.E. Drake, S. Sjue, J. C. Blackmon, U. Hager, N. Galinski, R. Wadsworth, I. C. Celik, Edward Simpson, C. Aa. Diget, C. J. Pearson, G. Hackman, S. P. Fox, H. C. Boston, G. C. Ball, N. L. Achouri, University of Surrey (UNIS), University of York [York, UK], Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), TRIUMF [Vancouver], University of Liverpool, Saint Mary's University [Halifax], University of Louisiana, University of Toronto, University of Guelph, and Colorado School of Mines

Subjects

Physics, Nuclear Theory, Structure (category theory), Particle, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Nuclear Experiment, 7. Clean energy, Molecular physics

Abstract

International audience; The changing of the nuclear shells for light, neutron-rich nuclei, and the single-particle nature of 26Na, has been explored by studying 25Na(d, p)26Na in inverse kinematics, using a beam of 25Na ions at 5 MeV per nucleon, provided by the ISAC-II facility at TRIUMF, Vancouver. Charged particles were detected with a highly-segmented silicon array that surrounded the 0.5 mg/cm2 (CD2)n target. Gamma rays from the recoiling 26Na nucleus were detected using eight Compton-suppressed HPGe clover detectors. Recoil tagging was provided by an in-beam scintillation foil, downstream of the germanium array. A novel technique of utilising pγ- and pγγ-gating to extract proton angular distributions from states populated close in energy was employed with success. New states in 26Na that are populated directly have been identified, using γ-decay patterns. Shell model calculations for comparison to experimental results are ongoing, using different model bases.

Published

2015

12. THE CONVERSION ELECTRON STUDY FOR 110<font>Cd</font>

Author

K. G. Leach, G. A. Demand, B. Jigmeddorj, D. S. Cross, W. D. Kulp, C. E. Svensson, G.C. Ball, K. L. Green, J. L. Wood, G. Hackman, C. Sumithrarachchi, P. E. Garrett, J. Wong, S. Triambak, A. Diaz-Varela, A. B. Garnsworthy, J. Bangay, and S. W. Yates

Subjects

Chemistry, Electron, Photochemistry

Published

2013

13. Towards Na-26 via (d,p) with SHARC and TIGRESS and a novel zero-degree detector

Author

M. Djongolov, M. Porter-Peden, H. J. Boston, S. M. Brown, C. Aa. Diget, Jun Chen, C. Unsworth, N. Galinski, U. Hager, N. A. Orr, D. S. Cross, R. Churchman, J. N. Orce, A. B. Garnsworthy, A. Chen, G. Hackman, S. Sjue, C. J. Pearson, C. E. Svensson, G. L. Wilson, R. Kanungo, J. Dech, W. N. Catford, S. J. Williams, B. R. Fulton, A. J. Boston, R. A. E. Austin, F. Sarazin, R. Ashley, P. Adsley, T.E. Drake, R. Wadsworth, S. P. Fox, D. S. Jamieson, J. P. Martin, G. C. Ball, H. Al-Falou, K. G. Leach, S. Triambak, J. C. Blackmon, C. Sumithrarachchi, Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), and Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

Physics, Nuclear reaction, History, Proton, 010308 nuclear & particles physics, Detector, Scintillator, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 7. Clean energy, 01 natural sciences, Particle detector, Computer Science Applications, Education, Semiconductor detector, Nuclear physics, 0103 physical sciences, Scintillation counter, 010306 general physics, Nucleon, Nuclear Experiment

Abstract

Nucleon transfer experiments have in recent years begun to be exploited in the study of nuclei far from stability, using radioactive beams in inverse kinematics. New techniques are still being developed in order to perform these experiments. The present experiment is designed to study the odd-odd nucleus Na which has a high density of states and therefore requires gamma-ray detection to distinguish between them. The experiment employed an intense beam of up to 3×10 pps of Na at 5.0 MeV/nucleon from the ISAC-II facility at triumf. The new silicon array SHARC was used for the first time and was coupled to the segmented clover gamma-ray array TIGRESS. A novel thin plastic scintillator detector was employed at zero degrees to identify and reject reactions occurring on the carbon component of the (CD) target. The efficiency of the background rejection using this detector is described with respect to the proton and gamma-ray spectra from the (d,p) reaction. © Published under licence by IOP Publishing Ltd.

Published

2011

14. The LEBIT facility at MSU

Author

S. Schwarz, C. Bachelet, M. Block, G. Bollen, D. Davies, M. Facina, C. M. Folden, C. Guénaut, E. Kwan, A. A. Kwiatkowski, D. J. Morrissey, G. Pang, A. Prinke, R. Ringle, J. Savory, P. Schury, C. Sumithrarachchi, T. Sun, and J. Huikari

Published

2007

15. Structure of $^{26}$Na via a Novel Technique Using ($d,p\gamma $) with a Radioactive $^{25}$Na Beam

Author

W. N. Catford, A. J. Boston, J. C. Blackmon, C. Sumithrarachchi, N. Galinski, R. A. E. Austin, C. E. Svensson, H. Al-Falou, I. C. Celik, C. Unsworth, K. G. Leach, A. B. Garnsworthy, S. J. Williams, T.E. Drake, F. Sarazin, G. C. Ball, N. A. Orr, G. L. Wilson, G. Hackman, C. J. Pearson, S. M. Brown, D. S. Cross, C. Aa. Diget, R. Ashley, P. Adsley, H. C. Boston, S. Triambak, B. R. Fulton, S. Sjue, U. Hager, A. Matta, M. Djongolov, M. Porter-Peden, R. Wadsworth, J. N. Orce, J. P. Martin, R. Kanungo, S. P. Fox, D. S. Jamieson, Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), and Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

Novel technique, Physics, Astrophysics::High Energy Astrophysical Phenomena, Nuclear Theory, SHELL model, General Physics and Astronomy, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Coincidence, Ion, Nuclear physics, Deuterium, Physics::Accelerator Physics, Neutron, Atomic physics, Nuclear Experiment, Beam (structure)

Abstract

International audience; States in 26Na were populated in the (d, pγ) reaction, induced by bombarding deuterium target nuclei with an intense reaccelerated beam of 25Na ions from the ISAC2 accelerator at TRIUMF. Gamma-rays were recorded in coincidence with protons and used to extract differential cross sections for 21 states up to the neutron decay threshold of 5 MeV. Results for levels below 3 MeV are discussed in detail and compared with shell model calculations and with previous work. The angular distributions of decay gamma-rays were measured for individual states and are compared to theoretically calculated distributions, highlighting some issues for future work.

Published

2015

16. Experiments with thermalized rare isotope beams from projectile fragmentation: a precision mass measurement of the superallowed beta emitter 38Ca

Author

G, Bollen, D, Davies, M, Facina, J, Huikari, E, Kwan, P A, Lofy, D J, Morrissey, A, Prinke, R, Ringle, J, Savory, P, Schury, S, Schwarz, C, Sumithrarachchi, T, Sun, and L, Weissman

Abstract

The mass of the short-lived radio nuclide 38Ca (T(1/2) = 440 ms) has been measured with the 9.4-T Penning trap mass spectrometer of the Low-Energy Beam and Ion Trap Facility. A mass uncertainty of deltam = 280 eV has been achieved, corresponding to deltam/m = 8 x 10(-9). The result makes 38Ca, a superallowed beta emitter, a new candidate to test the conserved-vector-current hypothesis. The experiment is also the first demonstration that short-lived radioactive isotopes produced by projectile fragmentation of relativistic heavy-ion beams can be slowed down and prepared such that precision experiments of this kind are possible.

Published

2006

17. Enhanced production of 60 Fe in massive stars.

Author

Spyrou A, Richman D, Couture A, Fields CE, Liddick SN, Childers K, Crider BP, DeYoung PA, Dombos AC, Gastis P, Guttormsen M, Hermansen K, Larsen AC, Lewis R, Lyons S, Midtbø JE, Mosby S, Muecher D, Naqvi F, Palmisano-Kyle A, Perdikakis G, Prokop C, Schatz H, Smith MK, Sumithrarachchi C, and Sweet A

Abstract

Massive stars are a major source of chemical elements in the cosmos, ejecting freshly produced nuclei through winds and core-collapse supernova explosions into the interstellar medium. Among the material ejected, long-lived radioisotopes, such as 60 Fe (iron) and 26 Al (aluminum), offer unique signs of active nucleosynthesis in our galaxy. There is a long-standing discrepancy between the observed 60 Fe/ 26 Al ratio by γ-ray telescopes and predictions from supernova models. This discrepancy has been attributed to uncertainties in the nuclear reaction networks producing 60 Fe, and one reaction in particular, the neutron-capture on 59 Fe. Here we present experimental results that provide a strong constraint on this reaction. We use these results to show that the production of 60 Fe in massive stars is higher than previously thought, further increasing the discrepancy between observed and predicted 60 Fe/ 26 Al ratios. The persisting discrepancy can therefore not be attributed to nuclear uncertainties, and points to issues in massive-star models., (© 2024. The Author(s).)

Published

2024

18. Production and separation of 7 Be for use in an ion source.

Author

Satija S, Domnanich KA, Sumithrarachchi C, Liu Y, Cingoranelli SJ, Saini S, Chaple I, Lapi SE, and Severin GW

Abstract

Beryllium-7 ( 7 Be) was created by proton irradiation of natural ( nat B) and enriched ( 10 B) boron targets. The targets were dissolved in nitric acid, and the 7 Be was separated from the bulk boron target material by cation-exchange chromatography. An average recovery of (99.4 ± 3.7)% was obtained for 6 separations. The purified 7 Be sample was placed into a batch-mode ion source to create a 7 Be beam that was delivered at an average rate of 5 × 10 5 pps to end users at the National Superconducting Cyclotron Laboratory., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

19. Preparation of stable and long-lived source samples for the stand-alone beam program at the Facility for Rare Isotope Beams.

Author

Domnanich KA, Satija S, Bodnar VS, Bollen G, Kleinfeldt CR, Liu Y, Rogers S, Schwarz S, Severin GW, Sumithrarachchi C, and Villari ACC

Abstract

At the Facility for Rare Isotope Beams (FRIB), an oven-ion source combination was used to create rare isotope beams in support of the stand-alone user beam program of the ReAccelerator (ReA) facility. This ion source, called Batch-Mode Ion Source (BMIS), was loaded with enriched stable nuclides ( 30 Si, 50 Cr, and 58 Fe) and long-lived radionuclides ( 26 Al, 32 Si). The introduced samples, herein designated as source samples, were thermally volatilized in the BMIS oven, and then ionization was used to generate the required beams. Owing to the different chemical behavior of the used samples, it was important to tailor the sample loading process for each desired beam species. An important parameter here is the volatility of the introduced species, which influences the adequate release of the isotope of interest. Additionally, any co-present, volatile components will affect the ion yields of the desired isotope, while isobaric contaminants will decrease the beam purity. To manufacture isotope source samples that meet these characteristics, various chemical methodologies were developed. All prepared samples were successfully used in BMIS to deliver beams for various user beam experiments. The here-established sample preparation techniques will greatly aid future efforts in developing offline rare-isotope beams., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

20. Quantification and purification of isotopic contamination at the ReAccelerator of the Facility for Rare Isotope Beams.

Author

Henriques A, Nash S, Barofsky D, Bollen G, Lapierre A, Schwarz S, Sumithrarachchi C, Zhao Q, and Villari ACC

Abstract

At the ReAccelerator within the Facility for Rare Isotope Beams, a combination of an interchangeable aluminum foil and a silicon detector was developed to quantify isobaric contamination in rare isotope beams. The device is simple to operate and is now used routinely. In this article, we describe the system and show an application of the device to determine the level of contamination of an Si-32 rare isotope beam by stable S-32. In addition, we describe how the new diagnostic device helped confirm an enhancement of the beam purity prior to beam delivery to experiments., (© 2023 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2023

21. Charge Radii of ^{55,56}Ni Reveal a Surprisingly Similar Behavior at N=28 in Ca and Ni Isotopes.

Author

Sommer F, König K, Rossi DM, Everett N, Garand D, de Groote RP, Holt JD, Imgram P, Incorvati A, Kalman C, Klose A, Lantis J, Liu Y, Miller AJ, Minamisono K, Miyagi T, Nazarewicz W, Nörtershäuser W, Pineda SV, Powel R, Reinhard PG, Renth L, Romero-Romero E, Roth R, Schwenk A, Sumithrarachchi C, and Teigelhöfer A

Abstract

Nuclear charge radii of ^{55,56}Ni were measured by collinear laser spectroscopy. The obtained information completes the behavior of the charge radii at the shell closure of the doubly magic nucleus ^{56}Ni. The trend of charge radii across the shell closures in calcium and nickel is surprisingly similar despite the fact that the ^{56}Ni core is supposed to be much softer than the ^{48}Ca core. The very low magnetic moment μ(^{55}Ni)=-1.108(20)  μ&#95;{N} indicates the impact of M1 excitations between spin-orbit partners across the N,Z=28 shell gaps. Our charge-radii results are compared to ab initio and nuclear density functional theory calculations, showing good agreement within theoretical uncertainties.

Published

2022

22. Beam particle identification and tagging of incompletely stripped heavy beams with HEIST.

Author

Anthony AK, Niu CY, Wang RS, Wieske J, Brown KW, Chajecki Z, Lynch WG, Ayyad Y, Barney J, Baumann T, Bazin D, Beceiro-Novo S, Boza J, Chen J, Cook KJ, Cortesi M, Ginter T, Mittig W, Pype A, Smith MK, Soto C, Sumithrarachchi C, Swaim J, Sweany S, Teh FCE, Tsang CY, Tsang MB, Watwood N, and Wuosmaa AH

Abstract

A challenge preventing successful inverse kinematics measurements with heavy nuclei that are not fully stripped is identifying and tagging the beam particles. For this purpose, the HEavy ISotope Tagger (HEIST) has been developed. HEIST utilizes two micro-channel plate timing detectors to measure the time-of-flight, a multi-sampling ion chamber to measure energy loss, and a high-purity germanium detector to identify isomer decays and calibrate the isotope identification system. HEIST has successfully identified 198 Pb and other nearby nuclei at energies of about 75 MeV/A. In the experiment discussed, a typical cut containing 89% of all 198 Pb 80+ in the beam had a purity of 86%. We examine the issues of charge state contamination. The observed charge state populations of these ions are presented and, using an adjusted beam energy, are well described by the charge state model GLOBAL.

Published

2022

23. New ^{59}Fe Stellar Decay Rate with Implications for the ^{60}Fe Radioactivity in Massive Stars.

Author

Gao B, Giraud S, Li KA, Sieverding A, Zegers RGT, Tang X, Ash J, Ayyad-Limonge Y, Bazin D, Biswas S, Brown BA, Chen J, DeNudt M, Farris P, Gabler JM, Gade A, Ginter T, Grinder M, Heger A, Hultquist C, Hill AM, Iwasaki H, Kwan E, Li J, Longfellow B, Maher C, Ndayisabye F, Noji S, Pereira J, Qi C, Rebenstock J, Revel A, Rhodes D, Sanchez A, Schmitt J, Sumithrarachchi C, Sun BH, and Weisshaar D

Abstract

The discrepancy between observations from γ-ray astronomy of the ^{60}Fe/^{26}Al γ-ray flux ratio and recent calculations is an unresolved puzzle in nuclear astrophysics. The stellar β-decay rate of ^{59}Fe is one of the major nuclear uncertainties impeding us from a precise prediction. The important Gamow-Teller strengths from the low-lying states in ^{59}Fe to the ^{59}Co ground state are measured for the first time using the exclusive measurement of the ^{59}Co(t,^{3}He+γ)^{59}Fe charge-exchange reaction. The new stellar decay rate of ^{59}Fe is a factor of 3.5±1.1 larger than the currently adopted rate at T=1.2  GK. Stellar evolution calculations show that the ^{60}Fe production yield of an 18 solar mass star is decreased significantly by 40% when using the new rate. Our result eliminates one of the major nuclear uncertainties in the predicted yield of ^{60}Fe and alleviates the existing discrepancy of the ^{60}Fe/^{26}Al ratio.

Published

2021

24. Multiple Shape Coexistence in ^{110,112}Cd.

Author

Garrett PE, Rodríguez TR, Varela AD, Green KL, Bangay J, Finlay A, Austin RAE, Ball GC, Bandyopadhyay DS, Bildstein V, Colosimo S, Cross DS, Demand GA, Finlay P, Garnsworthy AB, Grinyer GF, Hackman G, Jigmeddorj B, Jolie J, Kulp WD, Leach KG, Morton AC, Orce JN, Pearson CJ, Phillips AA, Radich AJ, Rand ET, Schumaker MA, Svensson CE, Sumithrarachchi C, Triambak S, Warr N, Wong J, Wood JL, and Yates SW

Abstract

From detailed spectroscopy of ^{110}Cd and ^{112}Cd following the β^{+}/electron-capture decay of ^{110,112}In and the β^{-} decay of ^{112}Ag, very weak decay branches from nonyrast states are observed. The transition rates determined from the measured branching ratios and level lifetimes obtained with the Doppler-shift attenuation method following inelastic neutron scattering reveal collective enhancements that are suggestive of a series of rotational bands. In ^{110}Cd, a γ band built on the shape-coexisting intruder configuration is suggested. For ^{112}Cd, the 2^{+} and 3^{+} intruder γ-band members are suggested, the 0&#95;{3}^{+} band is extended to spin 4^{+}, and the 0&#95;{4}^{+} band is identified. The results are interpreted using beyond-mean-field calculations employing the symmetry conserving configuration mixing method with the Gogny D1S energy density functional and with the suggestion that the Cd isotopes exhibit multiple shape coexistence.

Published

2019

25. Charge Radii of Neutron Deficient ^{52,53}Fe Produced by Projectile Fragmentation.

Author

Minamisono K, Rossi DM, Beerwerth R, Fritzsche S, Garand D, Klose A, Liu Y, Maaß B, Mantica PF, Miller AJ, Müller P, Nazarewicz W, Nörtershäuser W, Olsen E, Pearson MR, Reinhard PG, Saperstein EE, Sumithrarachchi C, and Tolokonnikov SV

Abstract

Bunched-beam collinear laser spectroscopy is performed on neutron deficient ^{52,53}Fe prepared through in-flight separation followed by a gas stopping. This novel scheme is a major step to reach nuclides far from the stability line in laser spectroscopy. Differential mean-square charge radii δ⟨r^{2}⟩ of ^{52,53}Fe are determined relative to stable ^{56}Fe as δ⟨r^{2}⟩^{56,52}=-0.034(13)  fm^{2} and δ⟨r^{2}⟩^{56,53}=-0.218(13)  fm^{2}, respectively, from the isotope shift of atomic hyperfine structures. The multiconfiguration Dirac-Fock method is used to calculate atomic factors to deduce δ⟨r^{2}⟩. The values of δ⟨r^{2}⟩ exhibit a minimum at the N=28 neutron shell closure. The nuclear density functional theory with Fayans and Skyrme energy density functionals is used to interpret the data. The trend of δ⟨r^{2}⟩ along the Fe isotopic chain results from an interplay between single-particle shell structure, pairing, and polarization effects and provides important data for understanding the intricate trend in the δ⟨r^{2}⟩ of closed-shell Ca isotopes.

Published

2016

26. A field programmable gate array-based time-resolved scaler for collinear laser spectroscopy with bunched radioactive potassium beams.

Author

Rossi DM, Minamisono K, Barquest BR, Bollen G, Cooper K, Davis M, Hammerton K, Hughes M, Mantica PF, Morrissey DJ, Ringle R, Rodriguez JA, Ryder CA, Schwarz S, Strum R, Sumithrarachchi C, Tarazona D, and Zhao S

Abstract

A new data acquisition system including a Field Programmable Gate Array (FPGA) based time-resolved scaler was developed for laser-induced fluorescence and beam bunch coincidence measurements. The FPGA scaler was tested in a collinear laser-spectroscopy experiment on radioactive (37)K at the BEam COoler and LAser spectroscopy (BECOLA) facility at the National Superconducting Cyclotron Laboratory at Michigan State University. A 1.29 μs bunch width from the buncher and a bunch repetition rate of 2.5 Hz led to a background suppression factor of 3.1 × 10(5) in resonant photon detection measurements. The hyperfine structure of (37)K and its isotope shift relative to the stable (39)K were determined using 5 × 10(4) s(-1) (37)K ions injected into the BECOLA beam line. The obtained hyperfine coupling constants A((2)S(1/2)) = 120.3(1.4) MHz, A((2)P(1/2)) = 15.2(1.1) MHz, and A((2)P(3/2)) = 1.4(8) MHz, and the isotope shift δν(39, 37) = -264(3) MHz are consistent with the previously determined values, where available.

Published

2014

27. First charge breeding of a rare-isotope beam with the electron-beam ion trap of the ReA post-accelerator at the National Superconducting Cyclotron Laboratory.

Author

Lapierre A, Schwarz S, Baumann TM, Cooper K, Kittimanapun K, Rodriguez AJ, Sumithrarachchi C, Williams SJ, Wittmer W, Leitner D, and Bollen G

Abstract

An electron-beam ion trap (EBIT) charge breeder is being brought into operation at the National Superconducting Cyclotron Laboratory at Michigan State University. The EBIT is part of the ReA post-accelerator for reacceleration of rare isotopes, which are thermalized in a gas "stopping" cell after being produced at high energy by projectile fragmentation. The ReA EBIT has a distinctive design; it is characterized by a high-current electron gun and a two-field superconducting magnet to optimize the capture and charge-breeding efficiency of continuously injected singly charged ion beams. Following a brief overview of the reaccelerator system and the ReA EBIT, this paper presents the latest commissioning results, particularly, charge breeding and reacceleration of the highly charged rare isotopes, (76)Ga(24 +, 25 +).

Published

2014

28. Experiments with thermalized rare isotope beams from projectile fragmentation: a precision mass measurement of the superallowed beta emitter 38Ca.

Author

Bollen G, Davies D, Facina M, Huikari J, Kwan E, Lofy PA, Morrissey DJ, Prinke A, Ringle R, Savory J, Schury P, Schwarz S, Sumithrarachchi C, Sun T, and Weissman L

Abstract

The mass of the short-lived radio nuclide 38Ca (T(1/2) = 440 ms) has been measured with the 9.4-T Penning trap mass spectrometer of the Low-Energy Beam and Ion Trap Facility. A mass uncertainty of deltam = 280 eV has been achieved, corresponding to deltam/m = 8 x 10(-9). The result makes 38Ca, a superallowed beta emitter, a new candidate to test the conserved-vector-current hypothesis. The experiment is also the first demonstration that short-lived radioactive isotopes produced by projectile fragmentation of relativistic heavy-ion beams can be slowed down and prepared such that precision experiments of this kind are possible.

Published

2006

29. A study of air particulate pollution in Colombo using a nuclear-related analytical technique.

Author

Seneviratne MC, Mahawatte P, Fernando RK, Hewamanna R, and Sumithrarachchi C

Subjects

Air Pollutants chemistry, Environmental Monitoring, Particle Size, Spectrometry, X-Ray Emission, Sri Lanka, Air Pollutants analysis

Abstract

Air particulate matter of two size fractions (coarse [2.5-10 microns] and fine [less than 2.5 microns]) were collected at an urban residential site (Colombo University ground) over a period of 12 mo during 1996 using a Gent PM10 stacked filter unit. Seventy-five sets of samples collected during this period were analyzed for 10 elements: Al, Si, K, S, Ca, Ti, Fe, Zn, Br, and Pb by energy-dispersive X-ray fluorescence, which is a multielement analysis. This is a highly sensitive technique enabling quantitative analysis of very low masses. The average concentrations of lead, sulfur, and bromine, which are generally associated with combustion products of automotive exhausts, dominate the fine fraction in this study. The minimum and maximum concentration of lead resulting in an annual average of 0.09 microgram/m3 was found to be 0.0042 and 0.441 microgram/m3 in particulate matter with less than 10 microns equivalent aerodynamic diameter. The maximum concentration determined is well below the limits set by the World Health Organization (0.5-1.0 microgram/m3). The recommended value for Pb in Sri Lanka is 0.5 microgram/m3. Al, Si, Ca, Ti, and Fe exhibited enhanced concentrations in the coarse fraction, which probably originate from disturbed soil as a result of wind and traffic.

Published

1999