Your search keyword '"Liddick SN"' showing total 73 results

1. β decay of Mg36 and Al36: Identification of a β-decaying isomer in Al36

Author

Lubna, RS, Liddick, SN, Ogunbeku, TH, Chester, A, Allmond, JM, Bhattacharya, Soumik, Campbell, CM, Carpenter, MP, Childers, KL, Chowdhury, P, Christie, J, Clark, BR, Clark, RM, Cox, I, Crawford, HL, Crider, BP, Doetsch, AA, Fallon, P, Frotscher, A, Gaballah, T, Gray, TJ, Grzywacz, R, Harke, JT, Hartley, AC, Jain, R, King, TT, Kitamura, N, Kolos, K, Kondev, FG, Lamere, E, Lewis, R, Longfellow, B, Lyons, S, Luitel, S, Madurga, M, Mahajan, R, Mogannam, MJ, Morse, C, Neupane, SK, Ong, W-J, Perez-Loureiro, D, Porzio, C, Prokop, CJ, Richard, AL, Ronning, EK, Rubino, E, Rykaczewski, K, Seweryniak, D, Siegl, K, Silwal, U, Singh, M, Siwakoti, DP, Smith, DC, Smith, MK, Tabor, SL, Tang, TL, Tripathi, Vandana, Volya, A, Wheeler, T, Xiao, Y, and Xu, Z

Subjects

Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, Nuclear and plasma physics

Abstract

The level structure of Al36 has been studied via β decay of Mg36 at the Facility for Rare Isotope Beams (FRIB) and the National Superconducting Cyclotron Laboratory (NSCL). A long-lived isomer in Al36 was identified which decays by β to an excited state of Si36. The ground state and the isomeric state of Al36 were found to populate different energy levels of Si36. The results from the two data sets in the present work complement each other. Configuration interaction calculations performed with the FSU shell-model Hamiltonians provide reasonable descriptions to the experimental observations and offer insight into future improvements of the theoretical interpretation.

Published

2023

2. Influence of Rb73 on the ashes of accreting neutron stars

Author

Hoff, DEM, Rogers, AM, Meisel, Z, Bender, PC, Brandenburg, K, Childers, K, Clark, JA, Dombos, AC, Doucet, ER, Jin, S, Lewis, R, Liddick, SN, Lister, CJ, Morse, C, Schatz, H, Schmidt, K, Soltesz, D, Subedi, SK, Wang, SM, 王思敏, and Waniganeththi, S

Subjects

Nuclear and Plasma Physics, Astronomical Sciences, Synchrotrons and Accelerators, Physical Sciences, Nuclear and plasma physics

Published

2020

3. Probing the role of proton cross-shell excitations in Ni 70 using nucleon knockout reactions

Author

Elman, B, Gade, A, Janssens, RVF, Ayangeakaa, AD, Bazin, D, Belarge, J, Bender, PC, Brown, BA, Campbell, CM, Carpenter, MP, Crawford, HL, Crider, BP, Fallon, P, Forney, AM, Harker, J, Liddick, SN, Longfellow, B, Lunderberg, E, Prokop, CJ, Sethi, J, Taniuchi, R, Walters, WB, Weisshaar, D, and Zhu, S

Subjects

nucl-ex

Abstract

The neutron-rich Ni isotopes have attracted attention in recent years because of the occurrence of shape or configuration coexistence. We report on the difference in population of excited final states in Ni70 following γ-ray tagged one-proton, one-neutron, and two-proton knockout from Cu71, Ni71, and Zn72 rare-isotope beams, respectively. Using variations observed in the relative transition intensities, signaling the changed population of specific final states in the different reactions, the role of neutron and proton configurations in excited states of Ni70 is probed schematically, with the goal of identifying those that carry, as leading configuration, proton excitations across the Z=28 shell closure. Such states are suggested in the literature to form a collective structure associated with prolate deformation. Adding to the body of knowledge for Ni70, 29 new transitions are reported, of which 15 are placed in its level scheme.

Published

2019

4. Probing the role of proton cross-shell excitations in Ni70 using nucleon knockout reactions

Author

Elman, B, Gade, A, Janssens, RVF, Ayangeakaa, AD, Bazin, D, Belarge, J, Bender, PC, Brown, BA, Campbell, CM, Carpenter, MP, Crawford, HL, Crider, BP, Fallon, P, Forney, AM, Harker, J, Liddick, SN, Longfellow, B, Lunderberg, E, Prokop, CJ, Sethi, J, Taniuchi, R, Walters, WB, Weisshaar, D, and Zhu, S

Subjects

Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, nucl-ex, Nuclear and plasma physics

Abstract

The neutron-rich Ni isotopes have attracted attention in recent years because of the occurrence of shape or configuration coexistence. We report on the difference in population of excited final states in Ni70 following γ-ray tagged one-proton, one-neutron, and two-proton knockout from Cu71, Ni71, and Zn72 rare-isotope beams, respectively. Using variations observed in the relative transition intensities, signaling the changed population of specific final states in the different reactions, the role of neutron and proton configurations in excited states of Ni70 is probed schematically, with the goal of identifying those that carry, as leading configuration, proton excitations across the Z=28 shell closure. Such states are suggested in the literature to form a collective structure associated with prolate deformation. Adding to the body of knowledge for Ni70, 29 new transitions are reported, of which 15 are placed in its level scheme.

Published

2019

5. β decay of Si 38,40 (Tz=+5, +6) to low-lying core excited states in odd-odd P 38,40 isotopes

Author

Tripathi, V, Lubna, RS, Abromeit, B, Crawford, HL, Liddick, SN, Utsuno, Y, Bender, PC, Crider, BP, Dungan, R, Fallon, P, Kravvaris, K, Larson, N, Macchiavelli, AO, Otsuka, T, Prokop, CJ, Richard, AL, Shimizu, N, Tabor, SL, Volya, A, and Yoshida, S

Abstract

Low-lying excited states in P38,40 have been identified in the β decay of Tz=+5,+6, Si38,40. Based on the allowed nature of the Gamow-Teller (GT) decay observed, these states are assigned spin and parity of 1+ and are core-excited 1p1h intruder states with a parity opposite to the ground state. The occurrence of intruder states at low energies highlights the importance of pairing and quadrupole correlation energies in lowering the intruder states despite the N=20 shell gap. Configuration interaction shell model calculations with the state-of-art SDPF-MU effective interaction were performed to understand the structure of these 1p1h states in the even-A phosphorus isotopes. States in P40 with N=25 were found to have very complex configurations involving all the fp orbitals leading to deformed states as seen in neutron-rich nuclei with N≈28. The calculated GT matrix elements for the β decay highlight the dominance of the decay of the core neutrons rather than the valence neutrons.

Published

2017

6. β decay of Si38,40 (Tz=+5,+6) to low-lying core excited states in odd-odd P38,40 isotopes

Author

Tripathi, Vandana, Lubna, RS, Abromeit, B, Crawford, HL, Liddick, SN, Utsuno, Y, Bender, PC, Crider, BP, Dungan, R, Fallon, P, Kravvaris, K, Larson, N, Macchiavelli, AO, Otsuka, T, Prokop, CJ, Richard, AL, Shimizu, N, Tabor, SL, Volya, A, and Yoshida, S

Subjects

Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, Nuclear and plasma physics

Abstract

Low-lying excited states in P38,40 have been identified in the β decay of Tz=+5,+6, Si38,40. Based on the allowed nature of the Gamow-Teller (GT) decay observed, these states are assigned spin and parity of 1+ and are core-excited 1p1h intruder states with a parity opposite to the ground state. The occurrence of intruder states at low energies highlights the importance of pairing and quadrupole correlation energies in lowering the intruder states despite the N=20 shell gap. Configuration interaction shell model calculations with the state-of-art SDPF-MU effective interaction were performed to understand the structure of these 1p1h states in the even-A phosphorus isotopes. States in P40 with N=25 were found to have very complex configurations involving all the fp orbitals leading to deformed states as seen in neutron-rich nuclei with N≈28. The calculated GT matrix elements for the β decay highlight the dominance of the decay of the core neutrons rather than the valence neutrons.

Published

2017

7. Shape coexistence from lifetime and branching-ratio measurements in 68,70Ni

Author

Crider, BP, Prokop, CJ, Liddick, SN, Al-Shudifat, M, Ayangeakaa, AD, Carpenter, MP, Carroll, JJ, Chen, J, Chiara, CJ, David, HM, Dombos, AC, Go, S, Grzywacz, R, Harker, J, Janssens, RVF, Larson, N, Lauritsen, T, Lewis, R, Quinn, SJ, Recchia, F, Spyrou, A, Suchyta, S, Walters, WB, and Zhu, S

Subjects

Nuclear & Particles Physics, Mathematical Physics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics

Abstract

Shape coexistence near closed-shell nuclei, whereby states associated with deformed shapes appear at relatively low excitation energy alongside spherical ones, is indicative of the rapid change in structure that can occur with the addition or removal of a few protons or neutrons. Near 68Ni (Z=28, N=40), the identification of shape coexistence hinges on hitherto undetermined transition rates to and from low-energy 0+ states. In 68,70Ni, new lifetimes and branching ratios have been measured. These data enable quantitative descriptions of the 0+ states through the deduced transition rates and serve as sensitive probes for characterizing their nuclear wave functions. The results are compared to, and consistent with, large-scale shell-model calculations which predict shape coexistence. With the firm identification of this phenomenon near 68Ni, shape coexistence is now observed in all currently accessible regions of the nuclear chart with closed proton shells and mid-shell neutrons.

Published

2016

8. Neutron single-particle strengths at N=40, 42: Neutron knockout from Ni 68,70 ground and isomeric states

Author

Recchia, F, Weisshaar, D, Gade, A, Tostevin, JA, Janssens, RVF, Albers, M, Bader, VM, Baugher, T, Bazin, D, Berryman, JS, Brown, BA, Campbell, CM, Carpenter, MP, Chen, J, Chiara, CJ, Crawford, HL, Hoffman, CR, Kondev, FG, Korichi, A, Langer, C, Lauritsen, T, Liddick, SN, Lunderberg, E, Noji, S, Prokop, C, Stroberg, SR, Suchyta, S, Wimmer, K, and Zhu, S

Abstract

The distribution of single-particle strength in Ni67,69 was characterized with one-neutron knockout reactions from intermediate-energy Ni68,70 secondary beams, selectively populating neutron-hole configurations at N=39 and 41, respectively. The spectroscopic strengths deduced from the measured partial cross sections to the individual final states, as tagged by their γ-ray decays, are used to identify and quantify neutron configurations in the wave functions. While Ni69 compares well with shell-model predictions, the results for Ni67 challenge the validity of current effective shell-model Hamiltonians by revealing discrepancies that cannot be explained so far. These results suggest that our understanding of the low-lying states in the neutron-rich, semimagic Ni isotopes may be incomplete and requires further investigation on both the experimental and theoretical sides.

Published

2016

9. Neutron single-particle strengths at N=40, 42: Neutron knockout from Ni68,70 ground and isomeric states

Author

Recchia, F, Weisshaar, D, Gade, A, Tostevin, JA, Janssens, RVF, Albers, M, Bader, VM, Baugher, T, Bazin, D, Berryman, JS, Brown, BA, Campbell, CM, Carpenter, MP, Chen, J, Chiara, CJ, Crawford, HL, Hoffman, CR, Kondev, FG, Korichi, A, Langer, C, Lauritsen, T, Liddick, SN, Lunderberg, E, Noji, S, Prokop, C, Stroberg, SR, Suchyta, S, Wimmer, K, and Zhu, S

Subjects

Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, Nuclear and plasma physics

Abstract

The distribution of single-particle strength in Ni67,69 was characterized with one-neutron knockout reactions from intermediate-energy Ni68,70 secondary beams, selectively populating neutron-hole configurations at N=39 and 41, respectively. The spectroscopic strengths deduced from the measured partial cross sections to the individual final states, as tagged by their γ-ray decays, are used to identify and quantify neutron configurations in the wave functions. While Ni69 compares well with shell-model predictions, the results for Ni67 challenge the validity of current effective shell-model Hamiltonians by revealing discrepancies that cannot be explained so far. These results suggest that our understanding of the low-lying states in the neutron-rich, semimagic Ni isotopes may be incomplete and requires further investigation on both the experimental and theoretical sides.

Published

2016

10. New low-energy 0+ state and shape coexistence in Ni 70

Author

Prokop, CJ, Crider, BP, Liddick, SN, Ayangeakaa, AD, Carpenter, MP, Carroll, JJ, Chen, J, Chiara, CJ, David, HM, Dombos, AC, Go, S, Harker, J, Janssens, RVF, Larson, N, Lauritsen, T, Lewis, R, Quinn, SJ, Recchia, F, Seweryniak, D, Spyrou, A, Suchyta, S, Walters, WB, and Zhu, S

Subjects

Nuclear & Particles Physics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Atomic, Molecular, Nuclear, Particle and Plasma Physics

Abstract

In recent models, the neutron-rich Ni isotopes around N=40 are predicted to exhibit multiple low-energy excited 0+ states attributed to neutron and proton excitations across both the N=40 and Z=28 shell gaps. In Ni68, the three observed 0+ states have been interpreted in terms of triple shape coexistence between spherical, oblate, and prolate deformed shapes. In the present work a new (02+) state at an energy of 1567 keV has been discovered in Ni70 by using β-delayed, γ-ray spectroscopy following the decay of Co70. The precipitous drop in the energy of the prolate-deformed 0+ level between Ni68 and Ni70 with the addition of two neutrons compares favorably with results of Monte Carlo shell-model calculations carried out in the large fpg9/2d5/2 model space, which predict a 02+ state at 1525 keV in Ni70. The result extends the shape-coexistence picture in the region to Ni70 and confirms the importance of the role of the tensor component of the monopole interaction in describing the structure of neutron-rich nuclei.

Published

2015

11. Upbend and M1 Scissors Mode in Neutron-rich Nuclei --- Consequences for r-process $(n,\gamma )$ Reaction Rates

Author

Larsen, AC, Goriely, S, Bernstein, LA, Bleuel, DL, Bracco, A, Brown, BA, Camera, F, Eriksen, TK, Frauendorf, S, Giacoppo, F, Guttormsen, M, Görgen, A, Harissopulos, S, Leoni, S, Liddick, SN, Naqvi, F, Nyhus, HT, Rose, SJ, Renstrøm, T, Schwengner, R, Siem, S, Spyrou, A, Tveten, GM, Voinov, AV, and Wiedeking, M

Subjects

Mathematical Sciences, Physical Sciences, Nuclear & Particles Physics, Mathematical sciences, Physical sciences

Abstract

An enhanced probability for low-energy γ-emission (upbend, Eγ

Published

2015

12. Upbend and M1 scissors mode in neutron-rich nuclei - Consequences for r-process (n,γ) reaction rates

Author

Larsen, AC, Goriely, S, Bernstein, LA, Bleuel, DL, Bracco, A, Brown, BA, Camera, F, Eriksen, TK, Frauendorf, S, Giacoppo, F, Guttormsen, M, Görgen, A, Harissopulos, S, Leoni, S, Liddick, SN, Naqvi, F, Nyhus, HT, Rose, SJ, Renstrøm, T, Schwengner, R, Siem, S, Spyrou, A, Tveten, GM, Voinov, AV, and Wiedeking, M

Subjects

Nuclear & Particles Physics, Mathematical Sciences, Physical Sciences

Abstract

An enhanced probability for low-energy γ-emission (upbend, Eγ

Published

2015

13. Search for intruder states in 68Ni and 67Co

Author

Chiara, CJ, Walters, WB, Janssens, RVF, Broda, R, Albers, M, Alcorta, M, Bertone, PF, Carpenter, MP, Hoffman, CR, Lauritsen, T, Rogers, AM, Seweryniak, D, Zhu, S, Kondev, FG, Fornal, B, Królas, W, Wrzesinski, J, Larson, N, Liddick, SN, Prokop, C, Suchyta, S, David, HM, and Doherty, DT

Subjects

Nuclear & Particles Physics, Mathematical Sciences, Physical Sciences

Abstract

The level schemes of 68Ni and 67Co were extended following 70Zninduced deep-inelastic reactions. No evidence for a previously reported proton intruder 0+ state at 2202 keV in 68Ni was found. In 67Co, two new states at 3216 and 3415 keV have been established; additional states associated with the intruder configuration have yet to be identified.

Published

2013

14. Shape coexistence from lifetime and branching-ratio measurements in68,70Ni

Author

Crider, BP, Prokop, CJ, Liddick, SN, Al-Shudifat, M, Ayangeakaa, AD, Carpenter, MP, Carroll, JJ, Chen, J, Chiara, CJ, David, HM, Dombos, AC, Go, S, Grzywacz, R, Harker, J, Janssens, RVF, Larson, N, Lauritsen, T, Lewis, R, Quinn, SJ, Recchia, F, Spyrou, A, Suchyta, S, Walters, WB, and Zhu, S

Subjects

Nuclear Theory

Abstract

© 2016 The Author(s) Shape coexistence near closed-shell nuclei, whereby states associated with deformed shapes appear at relatively low excitation energy alongside spherical ones, is indicative of the rapid change in structure that can occur with the addition or removal of a few protons or neutrons. Near68Ni (Z=28, N=40), the identification of shape coexistence hinges on hitherto undetermined transition rates to and from low-energy 0+states. In68,70Ni, new lifetimes and branching ratios have been measured. These data enable quantitative descriptions of the 0+states through the deduced transition rates and serve as sensitive probes for characterizing their nuclear wave functions. The results are compared to, and consistent with, large-scale shell-model calculations which predict shape coexistence. With the firm identification of this phenomenon near68Ni, shape coexistence is now observed in all currently accessible regions of the nuclear chart with closed proton shells and mid-shell neutrons.

Published

2016

15. New low-energy 0+ state and shape coexistence in Ni70

Author

Prokop, CJ, Crider, BP, Liddick, SN, Ayangeakaa, AD, Carpenter, MP, Carroll, JJ, Chen, J, Chiara, CJ, David, HM, Dombos, AC, Go, S, Harker, J, Janssens, RVF, Larson, N, Lauritsen, T, Lewis, R, Quinn, SJ, Recchia, F, Seweryniak, D, Spyrou, A, Suchyta, S, Walters, WB, and Zhu, S

Subjects

Particle and Plasma Physics, Molecular, Nuclear, Atomic, Nuclear & Particles Physics

Abstract

In recent models, the neutron-rich Ni isotopes around N=40 are predicted to exhibit multiple low-energy excited 0+ states attributed to neutron and proton excitations across both the N=40 and Z=28 shell gaps. In Ni68, the three observed 0+ states have been interpreted in terms of triple shape coexistence between spherical, oblate, and prolate deformed shapes. In the present work a new (02+) state at an energy of 1567 keV has been discovered in Ni70 by using β-delayed, γ-ray spectroscopy following the decay of Co70. The precipitous drop in the energy of the prolate-deformed 0+ level between Ni68 and Ni70 with the addition of two neutrons compares favorably with results of Monte Carlo shell-model calculations carried out in the large fpg9/2d5/2 model space, which predict a 02+ state at 1525 keV in Ni70. The result extends the shape-coexistence picture in the region to Ni70 and confirms the importance of the role of the tensor component of the monopole interaction in describing the structure of neutron-rich nuclei.

Published

2015

16. Half-life of the yrast 2(+) state in W-188: Evolution of deformation and collectivity in neutron-rich tungsten isotopes

Author

Mason, PJR, Podolyak, Zsolt, Marginean, N, Regan, Patrick, Stevenson, Paul, Werner, V, Alexander, T, Algora, A, Alharbi, T, Bowry, M, Britton, R, Bruce, AM, Bucurescu, D, Bunce, M, Cata-Danil, G, Cata-Danil, I, Cooper, N, Deleanu, D, Delion, D, Filipescu, D, Gelletly, William, Ghita, D, Gheorghe, I, Glodariu, T, Ilie, G, Ivanova, D, Kisyov, S, Lalkovski, S, Lica, R, Liddick, SN, Marginean, R, Mihai, C, Mulholland, K, Nita, CR, Negret, A, Pascu, S, Rice, S, Roberts, OJ, Sava, T, Smith, JF, Soederstroem, P-A, Stroe, L, Suliman, G, Suvaila, R, Toma, S, Townsley, C, Wilson, E, Wood, Rachael, Zhekova, M, and Zhou, C

Abstract

The half-life of the yrast I π = 2+ state in the neutron-rich nucleus 188W has been measured using fast-timing techniques with the HPGe and LaBr3:Ce array at the National Institute of Physics and Nuclear Engineering, Bucharest. The resulting value of t1/2 = 0.87(12) ns is equivalent to a reduced transition probability of B(E2; 2+ 1 → 0+ 1 ) = 85(12) W.u. for this transition. The B(E2; 2+ 1 → 0+ 1 ) is compared to neighboring tungsten isotopes and nuclei in the Hf, Os, and Pt isotopic chains. Woods-Saxon potential energy surface (PES) calculations have been performed for nuclei in the tungsten isotopic chain and predict prolate deformed minima with rapidly increasing γ softness for 184–192W and an oblate minimum for 194W.

Published

2013

17. Low-energy level schemes of 66,68Fe and inferred proton and neutron excitations across Z = 28 and N = 40

Author

Liddick, SN, Abromeit, B, Ayres, A, Bey, A, Bingham, CR, Brown, BA, Cartegni, L, Crawford, HL, Darby, IG, Grzywacz, R, Ilyushkin, S, Hjorth-Jensen, M, Larson, N, Madurga, M, Miller, D, Padgett, S, Paulauskas, SV, Rajabali, Mustafa, Rykaczewski, K, and Suchyta, S

Abstract

Background: The nuclei in the region around 68Ni display an apparent rapid development of collectivity as protons are removed from the f7/2 single-particle state along the N = 40 isotonic chain. Proton and neutron excitations across the Z = 28 and N = 40 gaps are observed in odd-A 27Co and 26Fe isotopes. Little spectroscopic information beyond the excited 2+ and 4+ is available in the even-even (66,68)26Fe nuclei to compare with shell model calculations. Purpose: Our goal is to determine the low-energy level schemes of 66,68Fe and compare the observed excitations with shell model calculations to identify states wherein a contribution from excitations across Z = 28 and N = 40 are present. Method: The low-energy states of 66,68Fe were populated through the beta decay of 66,68Mn produced at the National Superconducting Cyclotron Laboratory. Beta-delayed gamma-ray transitions were detected and correlated to the respective parent isotope to construct a low-energy level scheme. Results: The low-energy level schemes of 66,68Fe were constructed from observed gamma-ray coincidences and absolute gamma-ray intensities. Tentative spin and parity assignments were assigned based on comparisons with shell model calculations and systematics. The two lowest 0+ and 2+ states were characterized in terms of the number of protons and neutrons excited across the respective shell gaps. Conclusion: The removal of two protons from 68Ni to 66Fe results in an inversion of the normal configuration and the one characterized by significant excitation across the Z = 28 and N = 40 gaps. Approximately, one proton and two neutrons are excited across their respective single-particle gaps in the ground state of 66Fe ispartof: Physical Review C, Nuclear Physics vol:87 issue:1 status: published

Published

2013

18. Low-energy structure of 66Co39 and 68Co41 populated through β decay

Author

Liddick, SN, Abromeit, B, Ayres, A, Bey, A, Bingham, CR, Bolla, M, Cartegni, L, Crawford, HL, Darby, IG, Grzywacz, R, Ilyushkin, S, Larson, N, Madurga, M, Miller, D, Padgett, S, Paulauskas, S, Rajabali, Mustafa, Rykaczewski, K, and Suchyta, S

Subjects

Nuclear Experiment

Abstract

The low-energy level structures for the neutron-rich Co isotopes at N = 39 and N = 41 are constructed following the beta decay of the respective even-even Fe isotopes. Spin and parity assignments of the lowest energy populated state in 66Co and 68Co are consistent with a 1+ spin and parity assignment and attributed to the coupling of the deformed proton configurations identified in 67Co and deformed neutron configurations inferred from neighboring Fe isotones. Comparisons along the N = 39 and N = 41 isotonic chains reveal a similarity in the structures of the Co and Mn isotopes. ispartof: Physical Review C, Nuclear Physics vol:85 issue:1 pages:014328- status: published

Published

2012

19. Li-7-Induced Reactions for Fast-Timing With LaBr3:Ce Detectors

Author

Mason, PJR, Podolyak, Z, Arginean, NM, Regan, PH, Alexander, T, Algora, A, Alharbi, T, Bowry, M, Britton, R, Bucurescu, D, Bruce, AM, Bunce, M, Cata-Danil, G, Cata-Danil, I, Cooper, N, Deleanu, D, Delion, D, Filipescu, D, Gelletly, W, Glodariu, T, Gheorghe, I, Ghita, D, Ilie, G, Ivanova, D, Kisyov, S, Lalkovski, S, Lica, R, Liddick, SN, Marginean, R, Mihai, C, Mulholland, K, Negret, A, Nita, CR, Rice, S, Roberts, OJ, Sava, T, Smith, JF, Soederstroem, P-A, Stevenson, PD, Stroe, L, Toma, S, Townsley, C, Werner, V, Wilson, E, Wood, RT, Zamfir, NV, Zhekova, M, Niksic, T, Milin, M, Vretenar, D, and Szilner, S

Published

2012

20. Beta decay of the proton-f5/2 ground state of 77Cu studied with 255 MeV and 0.2 MeV purified radioactive beams

Author

Ilyushkin, SV, Winger, JA, Gross, CJ, Rykaczewski, KP, Batchelder, JC, Cartegni, L, Darby, Iain, Goodin, C, Grzywacz, R, Hamilton, JH, Korgul, A, Krolas, W, Liddick, SN, Mazzocchi, C, Padgett, S, Piechaczek, A, Rajabali, MM, Shapira, D, and Zganjar, EF

Abstract

Isobarically purified beams of 77Cu with energies of 225 and 0.2 MeV were used at the Holifield Radioactive Ion Beam Facility of Oak Ridge National Laboratory to study beta decay into states in 77Zn. Data taken at 225 MeV allowed the determination of absolute branching ratios relative to the decay of 77Cu for this beta decay as well as its daughters. From these we obtained a refined beta-delayed neutron emission probability of 30.3(22)% and a probability that the decay proceeds through 77Zn(g) of 49.1(26)%. A total of 64 gamma rays were placed in a level scheme for 77Zn containing 35 excited states including one state above the neutron separation energy, whereas two gamma rays were observed for the βn branch to states in 76Zn. The growth and decay curves of some prominent gamma rays indicate a single beta-decaying state with a half-life of 480(9) ms. The decay pattern for 77Cu, with observed feeding of 8(3)% to 7/2+ 77Zn(g) and 6(3)% to 1/2− 77Zn(m), in contrast to the large feeding observed for decay of proton-p3/2 73Cu(g) to 1/2− 73Zn(g), strongly suggests a proton-f5/2 ground state for the studied 77Cu activity. ispartof: Physical Review C, Nuclear Physics vol:80 issue:5 status: published

Published

2009

21. One-particle excitations outside the Ti-54 semi-magic core: The V-55 and Ti-55 yrast structures

Author

Zhu, S, Janssens, RVF, Fornal, B, Freeman, SJ, Honma, M, Broda, R, Carpenter, MP, Deacon, AN, Kay, BP, Kondev, FG, Krolas, W, Kozemczak, J, Larabee, A, Lauritsen, T, Liddick, SN, Lister, CJ, Mantica, PF, Otsuka, Taka, Pawlat, T, Robinson, A, Seweryniak, D, Smith, JF, Steppenbeck, D, Tomlin, BE, Wrzesinski, J, and Wang, Xin

Abstract

The level structures of 55 Vand 55 Ti, the two nuclei with a single nucleon outside the semi-magic 54 22 Ti 32 core, have been investigated in order to provide new tests of full pf -shell calculations with the GXPF1A interaction. The addition of a proton does not appear to affect the N = 32 shell gap significantly, although comparisons between calculations and experiment at high spins ( I π 21 / 2 − ) indicate the need for a larger model space for an accurate description of the data in this regime. The energy separation between the νp 1 / 2 and νf 5 / 2 orbitals in neutron-rich Ti isotopes is not large enough to result in an N = 34 shell gap. However, comparisons between the 55 Ti data and the calculations argue for the presence of a sizable N = 34 gap in 54 Ca. ispartof: Physics Letters B vol:650 issue:2 pages:135-140 status: published

Published

2007

22. Reduced transition probabilities to the first 2(+) state in Ti-52,Ti-54,Ti-56 and development of shell closures at N=32,34

Author

Dinca, DC, Janssens, RVF, Gade, A, Bazin, D, Broda, R, Brown, BA, Campbell, CM, Carpenter, MP, Chowdhury, P, Cook, JM, Deacon, AN, Fornal, B, Freeman, SJ, Glasmacher, T, Honma, M, Kondev, FG, Lecouey, JL, Liddick, SN, Mantica, PF, Mueller, WF, Olliver, H, Otsuka, Taka, Terry, JR, Tomlin, BA, and Yoneda, K

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The even 52 – 56 Ti isotopes have been studied with intermediate-energy Coulomb excitation and absolute B ( E 2; 0 + → 2 + 1 ) transition rates have been obtained. These data confirm the presence of a subshell closure at neutron number N = 32 in neutron-rich nuclei above the doubly magic nucleus 48 Ca and provide no direct evidence for the predicted N = 34 closure. Large-scale shell model calculations with the most recent effective interactions are unable to reproduce the magnitude of the measured strengths in the semimagic Ti nuclei and their strong variation with neutron number. ispartof: Physical Review C, Nuclear Physics vol:71 issue:4 status: published

Published

2005

23. Na-29: Defining the edge of the island of inversion for Z=11

Author

Tripathi, V, Tabor, SL, Mantica, PF, Hoffman, CR, Wiedeking, M, Davies, AD, Liddick, SN, Mueller, WF, Otsuka, Taka, Stolz, A, Tomlin, BE, Utsuno, Y, and Volya, A

Abstract

The low-energy level structure of the exotic Na isotopes 28 ; 29 Na has been investigated through -delayed spectroscopy. The N 20 isotones for Z 10 – 12 are considered to belong to the ‘‘island of inversion’’ where intruder configurations dominate the ground state wave function. However, it is an open question as to where and how the transition from normal to intruder dominated configurations happens in an isotopic chain. The present work, which presents the first detailed spectroscopy of 28 ; 29 Na , clearly demonstrates that such a transition in the Na isotopes occurs between 28 Na ( N 17 ) and 29 Na ( N 18 ), supporting the smaller N 20 shell gap in neutron-rich sd shell nuclei. The evidence for inverted shell structure is found in -decay branching ratios, intruder dominated spectroscopy of low- lying states, and shell model analysis. ispartof: Physical Review Letters vol:94 issue:16 ispartof: location:United States status: published

Published

2005

24. Yrast structure of neutron-rich Ti53

Author

Fornal, B, Zhu, S, Janssens, RVF, Honma, M, Broda, R, Brown, BA, Carpenter, MP, Freeman, SJ, Hammond, N, Kondev, FG, Krolas, W, Lauritsen, T, Liddick, SN, Lister, CJ, Lunardi, S, Mantica, PF, Marginean, N, Mizusaki, T, Moore, EF, Otsuka, Taka, Pawlat, T, Seweryniak, D, Tomlin, BE, Ur, CA, Wiedenhover, I, and Wrzesinski, J

Subjects

Nuclear Experiment

Abstract

γ rays from neutron-rich Ti nuclei in the vicinity of N = 32 have been studied at Gammasphere using deep-inelastic reactions induced by 48 Ca beams on thick 208 Pb and 238 U targets. The 53 Ti yrast cascade was identified for the first time, and the location in energy of states with spin up to I = 21/2 was determined. The excitations of 53 Ti provide new tests of effective interactions for full- pf -shell calculations. Comparisons between theory and experiment for the highest spin states in 53 Ti favor the recently proposed GXPF1A interaction, which accounts for the appearance of a neutron subshell closure at N = 32 in Ti isotopes as well as for the lack of a similar subshell closure at N = 34, as predicted by earlier calculations with another interaction ispartof: Physical Review C, Nuclear Physics vol:72 issue:4 status: published

Published

2005

25. Probing the sustainability of the N=82 and Z=50 shell closures for neutron-rich nuclides: Decay of120Rh75 to levels of 120Pd74

Author

Walters, W, Tomlin, B, Mantica, P, Brown, B, Stone, J, Davies, A, Estrade, A, Hosmer, P, Hoteling, N, Liddick, SN, Mertzimekis, T, Montes, F, Morton, A, Mueller, W, Ouellette, M, Pellegrini, E, Santi, P, Seweryniak, D, Schatz, H, Shergur, J, and Stolz, A

Subjects

Nuclear Physics

Abstract

The low-energy levels of 120Pd74 were populated by β decay of 120Rh75, which was produced via projectile fragmentation of a 136Xe82 beam at 120 MeV/nucleon. Delayed β-gated γ rays with energies of 438 and 618 keV were observed in coincidence with 120Rh75 fragments and assigned to the 21+ → 0+ and 41+ → 21+ transitions, respectively, in 120Pd74. Isomeric γ-ray transitions are also reported for 120Rh75 and 126Cd78. The low-energy structure of 120Pd74 shows remarkable similarity to those of the isotopic 108Pd62 and isotonic 128Xe74 suggesting that these nuclides share the same Z=50 and N=82 closed shell structures with neutron-rich 120Pd 74.

Published

2004

26. Development of shell closures at N=32,34. I. beta decay of neutron-rich Sc isotopes

Author

Liddick, SN, Mantica, PF, Broda, R, Brown, BA, Carpenter, MP, Davies, AD, Fornal, B, Glasmacher, T, Groh, DE, Honma, M, Horoi, M, Janssens, RVF, Mizusaki, T, Morrissey, DJ, Morton, AC, Mueller, WF, Otsuka, Taka, Pavan, J, Schatz, H, Stolz, A, Tabor, SL, Tomlin, BE, and Wiedeking, M

Abstract

Details regarding the b -decay properties of 54,55,56 Sc are reported and compared with shell model predic- tions. The low-energy level structures of even-even 54,56 Ti are presented, and the systematic variation of the energy of the first excited 2 1 + state is discussed in light of proposed shell closures at N = 32 , 34 for the neutron-rich Ti isotopes ispartof: Physical Review C, Nuclear Physics vol:70 issue:6 status: published

Published

2004

27. Lowest excitations in Ti-56 and the predicted N=34 shell closure

Author

Liddick, SN, Mantica, PF, Janssens, RVF, Broda, R, Brown, BA, Carpenter, MP, Fornal, B, Honma, M, Mizusaki, T, Morton, AC, Mueller, WF, Otsuka, Taka, Pavan, J, Stolz, A, Tabor, SL, Tomlin, BE, and Wiedeking, M

Abstract

Recent experimental characterization of the subshell closure at N 32 in the Ca, Ti, and Cr isotones has stimulated shell-model calculations that indicated the possibility that the N 34 isotones of these same elements could exhibit characteristics of a shell closure, namely, a high energy for the first excited 2 level. To that end, we have studied the decay of 56 Sc produced in fragmentation reactions and identified new rays in the daughter N 34 isotone 56 Ti . The first 2 level is found at an energy of 1127 keV , well below the expected position that would indicate the presence of an N 34 shell closure in 56 Ti . ispartof: Physical Review Letters vol:92 issue:7 ispartof: location:United States status: published

Published

2004

28. beta decay studies of the neutron-rich V56-58 isotopes

Author

Mantica, PF, Morton, AC, Brown, BA, Davies, AD, Glasmacher, T, Groh, DE, Liddick, SN, Morrissey, DJ, Mueller, WF, Schatz, H, Stolz, A, Tabor, SL, Honma, M, Horoi, M, and Otsuka, Taka

Abstract

b decay of 56,57,58V has been used to populate low-energy levels of 56,57,58Cr, respectively. The low-energy levels of the even-even Cr isotopes and b-decay half-lives and branching ratios of the parent V isotopes are compared to results of shell-model calculations. The Cr energy level calculations were completed in the full p f -model space, using several different interactions. The systematic variation of E(21 1), which is indicative of a subshell closure at N532, was best reproduced in calculations using a pf-shell-model interaction based on effective two-body matrix elements with some replacement by the G matrix ispartof: Physical Review C, Nuclear Physics vol:67 issue:1 status: published

Published

2003

29. Evolution of shell structure in the A-60 region

Author

Liddick, Sn, Mantica, Pf, Janssens, Rv, Broda, R., Michael Patten Carpenter, Fornal, B., Honma, M., Mizusaki, T., Morton, Ac, Mueller, Wf, Otsuka, T., Pavan, J., Stolz, A., Tabor, S., Tomlin, Be, and Wiedeking, M.

30. Neutron-rich Ti isotopes and possible N=32 and N=34 shell gaps

Author

Dinca, Dc, Janssens, Rvf, Gade, A., Fornal, B., Zhu, S., Bazin, D., Broda, R., Campbell, Cm, Michael Patten Carpenter, Chowdhury, P., Cook, Jm, Daly, Pj, Deacon, An, Freeman, Sj, Glasmacher, T., Grabowski, Zw, Hammond, Nj, Kondev, Fg, Krolas, W., Lauritsen, T., Lecouey, Jl, Liddick, Sn, Lister, Cj, Mantica, Pf, Moore, Ef, Mueller, Wf, Olliver, H., Pawlat, T., Seweryniak, D., Starosta, K., Terry, Jr, Tomlin, Be, Wrzesinski, J., and Yoneda, K.

31. 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

32. First Study of the ^{139}Ba(n,γ)^{140}Ba Reaction to Constrain the Conditions for the Astrophysical i Process.

Author

Spyrou A, Mücher D, Denissenkov PA, Herwig F, Good EC, Balk G, Berg HC, Bleuel DL, Clark JA, Dembski C, DeYoung PA, Greaves B, Guttormsen M, Harris C, Larsen AC, Liddick SN, Lyons S, Markova M, Mogannam MJ, Nikas S, Owens-Fryar J, Palmisano-Kyle A, Perdikakis G, Pogliano F, Quintieri M, Richard AL, Santiago-Gonzalez D, Savard G, Smith MK, Sweet A, Tsantiri A, and Wiedeking M

Abstract

New astronomical observations point to a nucleosynthesis picture that goes beyond what was accepted until recently. The intermediate "i" process was proposed as a plausible scenario to explain some of the unusual abundance patterns observed in metal-poor stars. The most important nuclear physics properties entering i-process calculations are the neutron-capture cross sections and they are almost exclusively not known experimentally. Here we provide the first experimental constraints on the ^{139}Ba(n,γ)^{140}Ba reaction rate, which is the dominant source of uncertainty for the production of lanthanum, a key indicator of i-process conditions. This is an important step towards identifying the exact astrophysical site of stars carrying the i-process signature.

Published

2024

33. Proton Shell Gaps in N=28 Nuclei from the First Complete Spectroscopy Study with FRIB Decay Station Initiator.

Author

Cox I, Xu ZY, Grzywacz R, Ong WJ, Rasco BC, Kitamura N, Hoskins D, Neupane S, Ruland TJ, Allmond JM, King TT, Lubna RS, Rykaczewski KP, Schatz H, Sherrill BM, Tarasov OB, Ayangeakaa AD, Berg HC, Bleuel DL, Cerizza G, Christie J, Chester A, Davis J, Dembski C, Doetsch AA, Duarte JG, Estrade A, Fijałkowska A, Gray TJ, Good EC, Haak K, Hanai S, Harke JT, Harris C, Hermansen K, Hoff DEM, Jain R, Karny M, Kolos K, Laminack A, Liddick SN, Longfellow B, Lyons S, Madurga M, Mogannam MJ, Nowicki A, Ogunbeku TH, Owens-Fryar G, Rajabali MM, Richard AL, Ronning EK, Rose GE, Siegl K, Singh M, Spyrou A, Sweet A, Tsantiri A, Walters WB, and Yokoyama R

Abstract

The first complete measurement of the β-decay strength distribution of _{17}^{45}Cl_{28} was performed at the Facility for Rare Isotope Beams (FRIB) with the FRIB Decay Station Initiator during the second FRIB experiment. The measurement involved the detection of neutrons and γ rays in two focal planes of the FRIB Decay Station Initiator in a single experiment for the first time. This enabled an analytical consistency in extracting the β-decay strength distribution over the large range of excitation energies, including neutron unbound states. We observe a rapid increase in the β-decay strength distribution above the neutron separation energy in _{18}^{45}Ar_{27}. This was interpreted to be caused by the transitioning of neutrons into protons excited across the Z=20 shell gap. The SDPF-MU interaction with reduced shell gap best reproduced the data. The measurement demonstrates a new approach that is sensitive to the proton shell gap in neutron rich nuclei according to SDPF-MU calculations.

Published

2024

34. Microsecond Isomer at the N=20 Island of Shape Inversion Observed at FRIB.

Author

Gray TJ, Allmond JM, Xu Z, King TT, Lubna RS, Crawford HL, Tripathi V, Crider BP, Grzywacz R, Liddick SN, Macchiavelli AO, Miyagi T, Poves A, Andalib A, Argo E, Benetti C, Bhattacharya S, Campbell CM, Carpenter MP, Chan J, Chester A, Christie J, Clark BR, Cox I, Doetsch AA, Dopfer J, Duarte JG, Fallon P, Frotscher A, Gaballah T, Harke JT, Heideman J, Huegen H, Holt JD, Jain R, Kitamura N, Kolos K, Kondev FG, Laminack A, Longfellow B, Luitel S, Madurga M, Mahajan R, Mogannam MJ, Morse C, Neupane S, Nowicki A, Ogunbeku TH, Ong WJ, Porzio C, Prokop CJ, Rasco BC, Ronning EK, Rubino E, Ruland TJ, Rykaczewski KP, Schaedig L, Seweryniak D, Siegl K, Singh M, Stuchbery AE, Tabor SL, Tang TL, Wheeler T, Winger JA, and Wood JL

Subjects

Isotopes, Neutrons, Cell Nucleus, Heart

Abstract

Excited-state spectroscopy from the first experiment at the Facility for Rare Isotope Beams (FRIB) is reported. A 24(2)-μs isomer was observed with the FRIB Decay Station initiator (FDSi) through a cascade of 224- and 401-keV γ rays in coincidence with ^{32}Na nuclei. This is the only known microsecond isomer (1  μs≤T&#95;{1/2}<1  ms) in the region. This nucleus is at the heart of the N=20 island of shape inversion and is at the crossroads of the spherical shell-model, deformed shell-model, and ab initio theories. It can be represented as the coupling of a proton hole and neutron particle to ^{32}Mg, ^{32}Mg+π^{-1}+ν^{+1}. This odd-odd coupling and isomer formation provides a sensitive measure of the underlying shape degrees of freedom of ^{32}Mg, where the onset of spherical-to-deformed shape inversion begins with a low-lying deformed 2^{+} state at 885 keV and a low-lying shape-coexisting 0&#95;{2}^{+} state at 1058 keV. We suggest two possible explanations for the 625-keV isomer in ^{32}Na: a 6^{-} spherical shape isomer that decays by E2 or a 0^{+} deformed spin isomer that decays by M2. The present results and calculations are most consistent with the latter, indicating that the low-lying states are dominated by deformation.

Published

2023

35. Statistical (n, γ ) cross section model comparison for short-lived nuclei.

Author

Lewis R, Couture A, Liddick SN, Spyrou A, Bleuel DL, Campo LC, Crider BP, Dombos AC, Guttormsen M, Kawano T, Larsen AC, Lewis AM, Mosby S, Perdikakis G, Prokop CJ, Quinn SJ, Renstrøm T, and Siem S

Abstract

Neutron-capture cross sections of neutron-rich nuclei are calculated using a Hauser-Feshbach model when direct experimental cross sections cannot be obtained. A number of codes to perform these calculations exist, and each makes different assumptions about the underlying nuclear physics. We investigated the systematic uncertainty associated with the choice of Hauser-Feshbach code used to calculate the neutron-capture cross section of a short-lived nucleus. The neutron-capture cross section for 73 Zn (n, γ ) 74 Zn was calculated using three Hauser-Feshbach statistical model codes: TALYS, CoH, and EMPIRE. The calculation was first performed without any changes to the default settings in each code. Then an experimentally obtained nuclear level density (NLD) and γ -ray strength function ( γ SF ) were included. Finally, the nuclear structure information was made consistent across the codes. The neutron-capture cross sections obtained from the three codes are in good agreement after including the experimentally obtained NLD and γ SF , accounting for differences in the underlying nuclear reaction models, and enforcing consistent approximations for unknown nuclear data. It is possible to use consistent inputs and nuclear physics to reduce the differences in the calculated neutron-capture cross section from different Hauser-Feshbach codes. However, ensuring the treatment of the input of experimental data and other nuclear physics are similar across multiple codes requires a careful investigation. For this reason, more complete documentation of the inputs and physics chosen is important., Supplementary Information: The online version contains supplementary material available at 10.1140/epja/s10050-023-00920-0., (© The Author(s) 2023.)

Published

2023

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

Author

Crawford HL, Tripathi V, Allmond JM, Crider BP, Grzywacz R, Liddick SN, Andalib A, Argo E, Benetti C, Bhattacharya S, Campbell CM, Carpenter MP, Chan J, Chester A, Christie J, Clark BR, Cox I, Doetsch AA, Dopfer J, Duarte JG, Fallon P, Frotscher A, Gaballah T, Gray TJ, Harke JT, Heideman J, Heugen H, Jain R, King TT, Kitamura N, Kolos K, Kondev FG, Laminack A, Longfellow B, Lubna RS, Luitel S, Madurga M, Mahajan R, Mogannam MJ, Morse C, Neupane S, Nowicki A, Ogunbeku TH, Ong WJ, Porzio C, Prokop CJ, Rasco BC, Ronning EK, Rubino E, Ruland TJ, Rykaczewski KP, Schaedig L, Seweryniak D, Siegl K, Singh M, Tabor SL, Tang TL, Wheeler T, Winger JA, and Xu Z

Abstract

New half-lives for exotic isotopes approaching the neutron drip-line in the vicinity of N∼28 for Z=12-15 were measured at the Facility for Rare Isotope Beams (FRIB) with the FRIB decay station initiator. The first experimental results are compared to the latest quasiparticle random phase approximation and shell-model calculations. Overall, the measured half-lives are consistent with the available theoretical descriptions and suggest a well-developed region of deformation below ^{48}Ca in the N=28 isotones. The erosion of the Z=14 subshell closure in Si is experimentally confirmed at N=28, and a reduction in the ^{38}Mg half-life is observed as compared with its isotopic neighbors, which does not seem to be predicted well based on the decay energy and deformation trends. This highlights the need for both additional data in this very exotic region, and for more advanced theoretical efforts.

Published

2022

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

Author

Ong WJ, Brown EF, Browne J, Ahn S, Childers K, Crider BP, Dombos AC, Gupta SS, Hitt GW, Langer C, Lewis R, Liddick SN, Lyons S, Meisel Z, Möller P, Montes F, Naqvi F, Pereira J, Prokop C, Richman D, Schatz H, Schmidt K, and Spyrou A

Abstract

The interpretation of observations of cooling neutron star crusts in quasipersistent x-ray transients is affected by predictions of the strength of neutrino cooling via crust Urca processes. The strength of crust Urca neutrino cooling depends sensitively on the electron-capture and β-decay ground-state-to-ground-state transition strengths of neutron-rich rare isotopes. Nuclei with a mass number of A=61 are predicted to be among the most abundant in accreted crusts, and the last remaining experimentally undetermined ground-state-to-ground-state transition strength was the β decay of ^{61}V. This Letter reports the first experimental determination of this transition strength, a ground-state branching of 8.1&#95;{-3.1}^{+4.0}%, corresponding to a log ft value of 5.5&#95;{-0.2}^{+0.2}. This result was achieved through the measurement of the β-delayed γ rays using the total absorption spectrometer SuN and the measurement of the β-delayed neutron branch using the neutron long counter system NERO at the National Superconducting Cyclotron Laboratory at Michigan State University. This method helps to mitigate the impact of the pandemonium effect in extremely neutron-rich nuclei on experimental results. The result implies that A=61 nuclei do not provide the strongest cooling in accreted neutron star crusts as expected by some predictions, but that their cooling is still larger compared to most other mass numbers. Only nuclei with mass numbers 31, 33, and 55 are predicted to be cooling more strongly. However, the theoretical predictions for the transition strengths of these nuclei are not consistently accurate enough to draw conclusions on crust cooling. With the experimental approach developed in this work, all relevant transitions are within reach to be studied in the future.

Published

2020

38. Publisher's Note: Direct Lifetime Measurements of the Excited States in ^{72}Ni [Phys. Rev. Lett. 116, 122502 (2016)].

Author

Kolos K, Miller D, Grzywacz R, Iwasaki H, Al-Shudifat M, Bazin D, Bingham CR, Braunroth T, Cerizza G, Gade A, Lemasson A, Liddick SN, Madurga M, Morse C, Portillo M, Rajabali MM, Recchia F, Riedinger LL, Voss P, Walters WB, Weisshaar D, Whitmore K, Wimmer K, and Tostevin JA

Abstract

This corrects the article DOI: 10.1103/PhysRevLett.116.122502.

Published

2020

39. Mirror-symmetry violation in bound nuclear ground states.

Author

Hoff DEM, Rogers AM, Wang SM, Bender PC, Brandenburg K, Childers K, Clark JA, Dombos AC, Doucet ER, Jin S, Lewis R, Liddick SN, Lister CJ, Meisel Z, Morse C, Nazarewicz W, Schatz H, Schmidt K, Soltesz D, Subedi SK, and Waniganeththi S

Abstract

Conservation laws are deeply related to any symmetry present in a physical system 1,2 . Analogously to electrons in atoms exhibiting spin symmetries 3 , it is possible to consider neutrons and protons in the atomic nucleus as projections of a single fermion with an isobaric spin (isospin) of t = 1/2 (ref.  4 ). Every nuclear state is thus characterized by a total isobaric spin T and a projection T z -two quantities that are largely conserved in nuclear reactions and decays 5,6 . A mirror symmetry emerges from this isobaric-spin formalism: nuclei with exchanged numbers of neutrons and protons, known as mirror nuclei, should have an identical set of states 7 , including their ground state, labelled by their total angular momentum J and parity π. Here we report evidence of mirror-symmetry violation in bound nuclear ground states within the mirror partners strontium-73 and bromine-73. We find that a J  π  = 5/2 - spin assignment is needed to explain the proton-emission pattern observed from the T = 3/2 isobaric-analogue state in rubidium-73, which is identical to the ground state of strontium-73. Therefore the ground state of strontium-73 must differ from its J  π  = 1/2 - mirror bromine-73. This observation offers insights into charge-symmetry-breaking forces acting in atomic nuclei.

Published

2020

40. Publisher's Note: Experimental Neutron Capture Rate Constraint Far from Stability [Phys. Rev. Lett. 116, 242502 (2016)].

Author

Liddick SN, Spyrou A, Crider BP, Naqvi F, Larsen AC, Guttormsen M, Mumpower M, Surman R, Perdikakis G, Bleuel DL, Couture A, Crespo Campo L, Dombos AC, Lewis R, Mosby S, Nikas S, Prokop CJ, Renstrom T, Rubio B, Siem S, and Quinn SJ

Abstract

This corrects the article DOI: 10.1103/PhysRevLett.116.242502.

Published

2019

41. Strong Neutron-γ Competition above the Neutron Threshold in the Decay of ^{70}Co.

Author

Spyrou A, Liddick SN, Naqvi F, Crider BP, Dombos AC, Bleuel DL, Brown BA, Couture A, Crespo Campo L, Guttormsen M, Larsen AC, Lewis R, Möller P, Mosby S, Mumpower MR, Perdikakis G, Prokop CJ, Renstrøm T, Siem S, Quinn SJ, and Valenta S

Abstract

The β-decay intensity of ^{70}Co was measured for the first time using the technique of total absorption spectroscopy. The large β-decay Q value [12.3(3) MeV] offers a rare opportunity to study β-decay properties in a broad energy range. Two surprising features were observed in the experimental results, namely, the large fragmentation of the β intensity at high energies, as well as the strong competition between γ rays and neutrons, up to more than 2 MeV above the neutron-separation energy. The data are compared to two theoretical calculations: the shell model and the quasiparticle random phase approximation (QRPA). Both models seem to be missing a significant strength at high excitation energies. Possible interpretations of this discrepancy are discussed. The shell model is used for a detailed nuclear structure interpretation and helps to explain the observed γ-neutron competition. The comparison to the QRPA calculations is done as a means to test a model that provides global β-decay properties for astrophysical calculations. Our work demonstrates the importance of performing detailed comparisons to experimental results, beyond the simple half-life comparisons. A realistic and robust description of the β-decay intensity is crucial for our understanding of nuclear structure as well as of r-process nucleosynthesis.

Published

2016

42. Experimental Neutron Capture Rate Constraint Far from Stability.

Author

Liddick SN, Spyrou A, Crider BP, Naqvi F, Larsen AC, Guttormsen M, Mumpower M, Surman R, Perdikakis G, Bleuel DL, Couture A, Crespo Campo L, Dombos AC, Lewis R, Mosby S, Nikas S, Prokop CJ, Renstrom T, Rubio B, Siem S, and Quinn SJ

Abstract

Nuclear reactions where an exotic nucleus captures a neutron are critical for a wide variety of applications, from energy production and national security, to astrophysical processes, and nucleosynthesis. Neutron capture rates are well constrained near stable isotopes where experimental data are available; however, moving far from the valley of stability, uncertainties grow by orders of magnitude. This is due to the complete lack of experimental constraints, as the direct measurement of a neutron-capture reaction on a short-lived nucleus is extremely challenging. Here, we report on the first experimental extraction of a neutron capture reaction rate on ^{69}Ni, a nucleus that is five neutrons away from the last stable isotope of Ni. The implications of this measurement on nucleosynthesis around mass 70 are discussed, and the impact of similar future measurements on the understanding of the origin of the heavy elements in the cosmos is presented.

Published

2016

43. Direct Lifetime Measurements of the Excited States in (72)Ni.

Author

Kolos K, Miller D, Grzywacz R, Iwasaki H, Al-Shudifat M, Bazin D, Bingham CR, Braunroth T, Cerizza G, Gade A, Lemasson A, Liddick SN, Madurga M, Morse C, Portillo M, Rajabali MM, Recchia F, Riedinger LL, Voss P, Walters WB, Weisshaar D, Whitmore K, Wimmer K, and Tostevin JA

Abstract

The lifetimes of the first excited 2^{+} and 4^{+} states in ^{72}Ni were measured at the National Superconducting Cyclotron Laboratory with the recoil-distance Doppler-shift method, a model-independent probe to obtain the reduced transition probability. Excited states in ^{72}Ni were populated by the one-proton knockout reaction of an intermediate energy ^{73}Cu beam. γ-ray-recoil coincidences were detected with the γ-ray tracking array GRETINA and the S800 spectrograph. Our results provide evidence of enhanced transition probability B(E2;2^{+}→0^{+}) as compared to ^{68}Ni, but do not confirm the trend of large B(E2) values reported in the neighboring isotope ^{70}Ni obtained from Coulomb excitation measurement. The results are compared to shell model calculations. The lifetime obtained for the excited 4&#95;{1}^{+} state is consistent with models showing decay of a seniority ν=4, 4^{+} state, which is consistent with the disappearance of the 8^{+} isomer in ^{72}Ni.

Published

2016

44. Isospin Mixing Reveals ^{30}P(p,γ)^{31}S Resonance Influencing Nova Nucleosynthesis.

Author

Bennett MB, Wrede C, Brown BA, Liddick SN, Pérez-Loureiro D, Bardayan DW, Chen AA, Chipps KA, Fry C, Glassman BE, Langer C, Larson NR, McNeice EI, Meisel Z, Ong W, O'Malley PD, Pain SD, Prokop CJ, Schatz H, Schwartz SB, Suchyta S, Thompson P, Walters M, and Xu X

Abstract

The thermonuclear ^{30}P(p,γ)^{31}S reaction rate is critical for modeling the final elemental and isotopic abundances of ONe nova nucleosynthesis, which affect the calibration of proposed nova thermometers and the identification of presolar nova grains, respectively. Unfortunately, the rate of this reaction is essentially unconstrained experimentally, because the strengths of key ^{31}S proton capture resonance states are not known, largely due to uncertainties in their spins and parities. Using the β decay of ^{31}Cl, we have observed the β-delayed γ decay of a ^{31}S state at E&#95;{x}=6390.2(7)  keV, with a ^{30}P(p,γ)^{31}S resonance energy of E&#95;{r}=259.3(8)  keV, in the middle of the ^{30}P(p,γ)^{31}S Gamow window for peak nova temperatures. This state exhibits isospin mixing with the nearby isobaric analog state at E&#95;{x}=6279.0(6)  keV, giving it an unambiguous spin and parity of 3/2^{+} and making it an important l=0 resonance for proton capture on ^{30}P.

Published

2016

45. Novel technique for constraining r-process (n, γ) reaction rates.

Author

Spyrou A, Liddick SN, Larsen AC, Guttormsen M, Cooper K, Dombos AC, Morrissey DJ, Naqvi F, Perdikakis G, Quinn SJ, Renstrøm T, Rodriguez JA, Simon A, Sumithrarachchi CS, and Zegers RG

Abstract

A novel technique has been developed, which will open exciting new opportunities for studying the very neutron-rich nuclei involved in the r process. As a proof of principle, the γ spectra from the β decay of ^{76}Ga have been measured with the SuN detector at the National Superconducting Cyclotron Laboratory. The nuclear level density and γ-ray strength function are extracted and used as input to Hauser-Feshbach calculations. The present technique is shown to strongly constrain the ^{75}Ge(n,γ)^{76}Ge cross section and reaction rate.

Published

2014

46. Split isobaric analog state in 55Ni: case of strong isospin mixing.

Author

Tripathi V, Tabor SL, Volya A, Liddick SN, Bender PC, Larson N, Prokop C, Suchyta S, Tai PL, and Vonmoss JM

Abstract

Study of β+ decay of the exotic Tz=-3/2 nucleus 55Cu, via delayed γ rays, has revealed a strongly isospin mixed doublet (4599-4579 keV) in 55Ni, which represents the fragmented and previously unknown isobaric analog of the ground state of 55Cu. The observed small log ft values to both states in the doublet confirm the superallowed Fermi β decay. The near degeneracy of a pair of 3/2- levels in 55Ni results in the strong isospin mixing. The isospin mixing matrix element between the T=3/2 and T=1/2 levels is inferred from the experiment to be 9(1) keV, which agrees well with the matrix element of the charge symmetry breaking shell model Hamiltonian of Ormand and Brown. A precise value of the half-life of 55Cu at 57(3) ms was also obtained.

Published

2013

47. Classical-NOVA CONTRIBUTION to the Milky Way's ²⁶Al abundance: exit channel of the key ²⁵Al(p,γ) ²⁶Si resonance.

Author

Bennett MB, Wrede C, Chipps KA, José J, Liddick SN, Santia M, Bowe A, Chen AA, Cooper N, Irvine D, McNeice E, Montes F, Naqvi F, Ortez R, Pain SD, Pereira J, Prokop C, Quaglia J, Quinn SJ, Schwartz SB, Shanab S, Simon A, Spyrou A, and Thiagalingam E

Abstract

Classical novae are expected to contribute to the 1809-keV Galactic γ-ray emission by producing its precursor 26Al, but the yield depends on the thermonuclear rate of the unmeasured 25Al(p,γ)26Si reaction. Using the β decay of 26P to populate the key J(π)=3(+) resonance in this reaction, we report the first evidence for the observation of its exit channel via a 1741.6±0.6(stat)±0.3(syst)  keV primary γ ray, where the uncertainties are statistical and systematic, respectively. By combining the measured γ-ray energy and intensity with other experimental data on 26Si, we find the center-of-mass energy and strength of the resonance to be E(r)=414.9±0.6(stat)±0.3(syst)±0.6(lit.)  keV and ωγ=23±6(stat)(-10)(+11)(lit.)  meV, respectively, where the last uncertainties are from adopted literature data. We use hydrodynamic nova simulations to model 26Al production showing that these measurements effectively eliminate the dominant experimental nuclear-physics uncertainty and we estimate that novae may contribute up to 30% of the Galactic 26Al.

Published

2013

48. Orbital dependent nucleonic pairing in the lightest known isotopes of tin.

Author

Darby IG, Grzywacz RK, Batchelder JC, Bingham CR, Cartegni L, Gross CJ, Hjorth-Jensen M, Joss DT, Liddick SN, Nazarewicz W, Padgett S, Page RD, Papenbrock T, Rajabali MM, Rotureau J, and Rykaczewski KP

Abstract

By studying the (109)Xe→(105)Te→(101)Sn superallowed α-decay chain, we observe low-lying states in (101)Sn, the one-neutron system outside doubly magic (100)Sn. We find that the spins of the ground state (J=7/2) and first excited state (J=5/2) in (101)Sn are reversed with respect to the traditional level ordering postulated for (103)Sn and the heavier tin isotopes. Through simple arguments and state-of-the-art shell-model calculations we explain this unexpected switch in terms of a transition from the single-particle regime to the collective mode in which orbital-dependent pairing correlations dominate.

Published

2010

49. Large beta-delayed neutron emission probabilities in the 78Ni region.

Author

Winger JA, Ilyushkin SV, Rykaczewski KP, Gross CJ, Batchelder JC, Goodin C, Grzywacz R, Hamilton JH, Korgul A, Królas W, Liddick SN, Mazzocchi C, Padgett S, Piechaczek A, Rajabali MM, Shapira D, Zganjar EF, and Borzov IN

Abstract

The beta-delayed neutron branching ratios (P{betan}) for nuclei near doubly magic 78Ni have been directly measured using a new method combining high-resolution mass separation, reacceleration, and digital beta-gamma spectroscopy of 238U fission products. The P{betan} values for the very neutron-rich isotopes ;{76-78}Cu and 83Ga were found to be much higher than previously reported and predicted. Revised calculations of the betan process, accounting for new mass measurements and an inversion of the pi2p{3/2} and pi1f{5/2} orbitals, are in better agreement with these new experimental results.

Published

2009

50. Two-proton correlations in the decay of 45Fe.

Author

Miernik K, Dominik W, Janas Z, Pfützner M, Grigorenko L, Bingham CR, Czyrkowski H, Cwiok M, Darby IG, Dabrowski R, Ginter T, Grzywacz R, Karny M, Korgul A, Kuśmierz W, Liddick SN, Rajabali M, Rykaczewski K, and Stolz A

Abstract

The decay of extremely neutron-deficient 45Fe has been studied in detail by means of a novel type of a gaseous detector employing digital imaging to record tracks of charged particles. The two-proton radioactivity channel was clearly identified. For the first time, the angular and energy correlations between two protons emitted from the nuclear ground state were determined, indicating the genuine three-body character of this decay. The half-life of 45Fe was found to be 2.6+/-0.2 ms and the observed 2p decay branching ratio is 70+/-4%.

Published

2007