Your search keyword '"Alexandra Gade"' showing total 207 results

1. P613: ANALYSIS OF EX-VIVO RESPONSE TO SINGLE DRUGS AND DRUG COMBINATIONS IN CHRONIC LYMPHOCYTIC LEUKEMIA PATIENT SAMPLES

Author

Leonardo Miranda Santana, Deepak B. Thimiri Govinda Raj, Andrea Cremaschi, Mariaserena Giliberto, Alexandra Gade, Arnoldo Frigessi, Geir E. Tjønnfjord, Ludvig A. Munthe, Sigrid S. Skånland, Manuela Zucknick, and Kjetil Taskén

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

2. Ex vivo drug sensitivity screening in multiple myeloma identifies drug combinations that act synergistically

Author

Mariaserena Giliberto, Deepak B. Thimiri Govinda Raj, Andrea Cremaschi, Sigrid S. Skånland, Alexandra Gade, Geir E. Tjønnfjord, Fredrik Schjesvold, Ludvig A. Munthe, and Kjetil Taskén

Subjects

drug combinations, ex vivo drug sensitivity, gain(1q21), patient‐derived MM cells, precision medicine, synergy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The management of multiple myeloma (MM) is challenging: An assortment of available drug combinations adds complexity to treatment selection, and treatment resistance frequently develops. Given the heterogeneous nature of MM, personalized testing tools are required to identify drug sensitivities. To identify drug sensitivities in MM cells, we established a drug testing pipeline to examine ex vivo drug responses. MM cells from 44 patients were screened against 30 clinically relevant single agents and 44 double‐ and triple‐drug combinations. We observed variability in responses across samples. The presence of gain(1q21) was associated with low sensitivity to venetoclax, and decreased ex vivo responses to dexamethasone reflected the drug resistance observed in patients. Less heterogeneity and higher efficacy was detected with many combinations compared to the corresponding single agents. We identified new synergistic effects of melflufen plus panobinostat using low concentrations (0.1–10 nm and 8 nm, respectively). In agreement with clinical studies, clinically approved combinations, such as triple combination of selinexor plus bortezomib plus dexamethasone, acted synergistically, and synergies required low drug concentrations (0.1 nm bortezomib, 10 nm selinexor and 4 nm dexamethasone). In summary, our drug screening provided results within a clinically actionable 5‐day time frame and identified synergistic drug efficacies in patient‐derived MM cells that may aid future therapy choices.

Published

2022

3. Reaching into the N = 40 Island of Inversion with Nucleon Removal Reactions

Author

Alexandra Gade

Subjects

rare isotopes, shell evolution, N = 40 island of inversion, knockout reactions, Physics, QC1-999

Abstract

One ambitious goal of nuclear physics is a predictive model of all nuclei, including the ones at the fringes of the nuclear chart which may remain out of experimental reach. Certain regions of the chart are providing formidable testing grounds for nuclear models in this quest as they display rapid structural evolution from one nucleus to another or phenomena such as shape coexistence. Observables measured for such nuclei can confirm or refute our understanding of the driving forces of the evolution of nuclear structure away from stability where textbook nuclear physics has been proven to not apply anymore. This paper briefly reviews the emerging picture for the very neutron-rich Fe, Cr, and Ti isotopes within the so-called N=40 island of inversion as obtained with nucleon knockout reactions. These have provided some of the most detailed nuclear spectroscopy in very neutron-rich nuclei produced at rare-isotope facilities. The results indicate that our current understanding, as encoded in large-scale shell-model calculations, appears correct with exciting predictions for the N=40 island of inversion left to be proven in the experiment. A bright future emerges with predictions of continued shell evolution and shape coexistence out to neutron number N=50, below 78Ni on the chart of nuclei.

Published

2021

4. Novel STAT3 Inhibitors Targeting STAT3 Dimerization by Binding to the STAT3 SH2 Domain

Author

Yaping Hua, Xing Yuan, Yun-heng Shen, Jinxin Wang, Waqas Azeem, Shuo Yang, Alexandra Gade, Seyed Mohammad Lellahi, Anne Margrete Øyan, Xisong Ke, Wei-dong Zhang, and Karl-Henning Kalland

Subjects

delavatine A, STAT3, SH2 domain, dimerization, prostate cancer, Therapeutics. Pharmacology, RM1-950

Abstract

Our drug discovery model has identified two novel STAT3 SH2 domain inhibitors 323–1 and 323–2 (delavatine A stereoisomers) in a series of experiments. In silico computational modeling, drug affinity responsive target stability (DARTS), and fluorescence polarization (FP) assays altogether determined that 323–1 and 323–2 directly target the STAT3 SH2 domain and inhibited both phosphorylated and non-phosphorylated STAT3 dimerization. Computational docking predicted that compound 323s bind to three subpockets of the STAT3 SH2 domain. The 323s inhibition of STAT3 dimerization was more potent than the commercial STAT3 SH2 domain inhibitor S3I-201 in the co-immunoprecipitation assay, correlating with computational docking data. The fluorescence polarization assay further confirmed that the compound 323s target the STAT3 SH2 domain by competitively abrogating the interaction between STAT3 and the SH2-binding peptide GpYLPQTV. Compared with S3I-201, the 323 compounds exhibited stronger inhibition of STAT3 and reduced the level of IL-6-stimulated phosphorylation of STAT3 (Tyr705) in LNCaP cells over the phosphorylation of STAT1 (Tyr701) induced by IFN-ɣ in PC3 cells or the phosphorylation of STAT1 (Ser727) in DU145 cells. Both compounds downregulated STAT3 target genes MCL1 and cyclin D1. Thus, the two compounds are promising lead compounds for the treatment of cancers with hyper-activated STAT3.

Published

2022

5. Evolution of collectivity in 126,128Xe studied in Coulomb excitation measurements

Author

Stanimir Kisyov, Ching-Yen Wu, Jack Henderson, Alexandra Gade, Kazunari Kaneko, Yang Sun, Noritaka Shimizu, Takahiro Mizusaki, Daniel Rhodes, Sayani Biswas, Aaron Chester, Matthew Devlin, Peter Farris, Ava M. Hill, Jing Li, Elizabeth Rubino, and Dirk Weisshaar

Subjects

General Medicine

Abstract

The characteristics of 126,128Xe were investigated in Coulomb excitation measurements performed at the National Superconducting Cyclotron Laboratory (NSCL) Re-accelerator facility, ReA3, Michigan State University (MSU). The Xe nuclei were accelerated to sub-barrier energies and were impinged on 196Pt and 208Pb targets in separate experimental runs. The scattered nuclei and the de-excitation γ-rays were detected using the JANUS setup. Electromagnetic matrix elements were extracted from the experimental data with the help of the GOSIA/GOSIA2 codes. The results were compared to schematic Davydov-Filippov γ-rigid rotor theoretical calculations and large-scale calculations within a newly-established microscopic shell model (called PMMU model). The experimental results agree well with the theoretical predictions, except for the quadrupole moments of the second 2+ states in both nuclei, therefore challenging the interpretation of the γ-bands structure.

Published

2023

6. Spectroscopy of the T = 2 mirror nuclei 48Fe/48Ti using mirrored knockout reactions

Author

F. Recchia, H. Iwasaki, Edward Simpson, D. Bazin, T. Haylett, E. Lunderberg, D. Kahl, R. Yajzey, P. C. Bender, P. J. Davies, X. Pereira-Lopez, R. Wadsworth, Brandon Elman, S. M. Lenzi, Brenden Longfellow, D. R. Napoli, N. Kobayashi, S. J. Lonsdale, Alexandra Gade, J. Belarge, M. A. Bentley, J. A. Tostevin, D. Weisshaar, L. Morris, and S. Uthayakumaar

Subjects

Physics, Nuclear and High Energy Physics, QC1-999, SHELL model, Nuclear Theory, Shell (structure), Context (language use), medicine.anatomical_structure, Excited state, medicine, Mirror nuclei, Atomic physics, Spectroscopy, Nuclear Experiment, Nucleus

Abstract

A sequence of excited states has been established for the first time in the proton-rich nucleus 48Fe (Z=26, N=22). The technique of mirrored (i.e. analogue) one-nucleon knockout reactions was applied, in which the T z = ±2 mirror pair, 48Fe/48Ti were populated via one-neutron/one-proton knockout from the secondary beams 49Fe/49V, respectively. The analogue properties of the reactions were used to help establish the new level scheme of 48Fe. The inclusive and exclusive cross sections were determined for the populated states. Large differences between the cross sections for the two mirrored reactions were observed and have been interpreted in terms of different degrees of binding of the mirror nuclei and in the context of the recent observations of suppression of spectroscopic strength as a function of nuclear binding, for knockout reactions on light solid targets. Mirror energy differences (MED) have been determined between the analogue T = 2 states and compared with the shell model predictions. MED for this mirror pair, due to their location in the shell, are especially sensitive to excitations out of the f 7 / 2 shell, and present a stringent test of the shell-model prescription.

Published

2021

7. In-beam γ -ray spectroscopy of Fe68 from charge exchange on Co68 projectiles

Author

D. Bazin, F. Nowacki, Alexandra Gade, Brenden Longfellow, D. Rhodes, R. V. F. Janssens, R. G. T. Zegers, D. Weisshaar, D. Little, J. Li, A. M. Hill, P. Farris, and B. A. Brown

Subjects

Physics, education.field_of_study, 010308 nuclear & particles physics, Population, Nuclear structure, 01 natural sciences, 7. Clean energy, symbols.namesake, Excited state, 0103 physical sciences, symbols, Gamma spectroscopy, Atomic physics, 010306 general physics, Nucleon, Hamiltonian (quantum mechanics), Spectroscopy, education, Beam (structure)

Abstract

Excited states in the neutron-rich nucleus Fe 68 were populated using a Be 9 ( Co 68 , 68 Fe + γ ) X charge-exchange reaction at 95 MeV/u. The new γ -ray transitions reported here for the first time complement data from β -decay studies and nucleon knockout reactions. In comparison to shell-model calculations with the LNPS effective interaction, two candidate states for the 6 1 + level emerge. The distinct population pattern of excited states and the magnitude of the cross section, σ inc = 0.51 ( 6 ) mb, make this reaction a promising one for future in-beam γ -ray spectroscopy. Reaction calculations with nuclear structure input from a new, locally optimized Hamiltonian, f 7 j 4 a , together with general considerations for heavy-ion-induced charge-exchange reactions appear consistent with most of the observations, although challenges remain.

Published

2021

8. Lifetime measurement of the 21+ state in 74Rb and isospin properties of quadrupole transition strengths at N = Z

Author

A. Westerberg, C. M. Campbell, K. Whitmore, C. Langer, C. Walz, R. Wadsworth, E. Lunderberg, F. Recchia, V. M. Bader, D. Bazin, I. Y. Lee, A. Lemasson, T.R. Baugher, A. Dewald, Alexandra Gade, Thomas Braunroth, S. R. Stroberg, Kathrin Wimmer, D. Smalley, H. Iwasaki, J. S. Berryman, C. Morse, C. Loelius, and D. Weisshaar

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Isoscalar, State (functional analysis), 01 natural sciences, symbols.namesake, medicine.anatomical_structure, Recoil, Isospin, 0103 physical sciences, Quadrupole, medicine, symbols, Atomic physics, 010306 general physics, Nucleus, Doppler effect, Line (formation)

Abstract

Self-conjugate nuclei in the A ≈ 70 – 80 region have attracted a great deal of attention due to phenomena such as shape coexistence and increasing collectivity along the N = Z line. We investigate the structure of nuclei in this region through lifetime measurements using the GRETINA array. The first implementation of the Differential Recoil Distance Doppler Shift technique with fast radioactive beams is demonstrated and verified through a measurement of the well-known B ( E 2 ; 2 1 + → 0 1 + ) transition strength in 74Kr. The method is then applied to determine the B ( E 2 ; 2 1 + → 0 1 + ) transition strength in 74Rb, the heaviest odd–odd N = Z nucleus for which this quantity has been determined. This result and extended systematics along N = Z suggest the dominance of the isoscalar part of the quadrupole transition strengths in self-conjugate nuclei, as well as the possible presence of shape coexistence in 74Rb.

Published

2018

9. In-beam γ -ray spectroscopy of Cr62,64

Author

Alexandra Gade, D. Rhodes, Brenden Longfellow, D. Little, Alfredo Poves, D. Weisshaar, R. V. F. Janssens, A. M. Hill, F. Nowacki, D. Bazin, S. M. Lenzi, J. Li, J. A. Tostevin, and P. Farris

Subjects

Physics, 010308 nuclear & particles physics, Island of inversion, Center (category theory), 7. Clean energy, 01 natural sciences, Atomic orbital, Excited state, Neutron number, 0103 physical sciences, Neutron, Atomic physics, Nuclear Experiment, 010306 general physics, Nucleon, Spectroscopy

Abstract

The region of neutron-rich Cr isotopes has garnered much attention in recent years due to a rapid onset of collectivity near neutron number $N=40$. We report here on the first $\ensuremath{\gamma}$-ray spectroscopy beyond the $({4}_{1}^{+})$ state in $^{62,64}\mathrm{Cr}$, using nucleon removal reactions from several projectiles within a rare-isotope beam cocktail. A candidate for the ${6}^{+}$ state in $^{64}\mathrm{Cr}$ is presented as well as one for, possibly, the second excited ${0}^{+}$ state in $^{62}\mathrm{Cr}$. The results are discussed in comparison to the LNPS shell-model predictions that allow for neutron excitations across the $N=40$ harmonic oscillator gap into the ${g}_{9/2}$ and ${d}_{5/2}$ orbitals. The calculated level schemes for $^{62,64}\mathrm{Cr}$ reveal intriguing collective structures. From the predicted neutron particle-hole character of the low-lying states in these Cr isotopes, $^{62}\mathrm{Cr}$ emerges as a transitional system on the path to the center of the $N=40$ island of inversion.

Published

2021

10. Coexisting normal and intruder configurations in $^{32}$Mg

Author

N. Imai, J. S. Berryman, T. Redpath, F. Nowacki, D. Barofsky, Alexandra Gade, G. Perdikakis, E. Lunderberg, T. Kröll, Alfredo Poves, D. Weisshaar, J. Lloyd, A. Westerberg, C. Langer, V. M. Bader, S. R. Stroberg, N. Kitamura, V. Bildstein, Kathrin Wimmer, D. Smalley, C. Bancroft, T.R. Baugher, F. Recchia, D. Bazin, Yutaka Utsuno, Noritaka Shimizu, S. Saenz, J. A. Tostevin, Japan Society for the Promotion of Science, Ministry of Education, Culture, Sports, Science and Technology (Japan), Ministerio de Ciencia, Innovación y Universidades (España), Science and Technology Facilities Council (UK), Department of Energy (US), National Science Foundation (US), UAM. Departamento de Física Teórica, Institut Pluridisciplinaire Hubert Curien (IPHC), and Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Nuclear and High Energy Physics, QC1-999, SHELL model, Direct reactions, FOS: Physical sciences, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Molecular physics, Momentum, Shell model, 0103 physical sciences, In-beam, Nuclear Experiment (nucl-ex), 010306 general physics, Spectroscopy, Nuclear Experiment, Nucleons, Physics, Neutrons, 010308 nuclear & particles physics, Island of inversion, Nuclear structure, Física, Observable, ray spectroscopy, In-beam γ-ray spectroscopy, Radioactive beams, Direct reaction

Abstract

7 pags., 4 figs., Situated in the so-called "island of inversion," the nucleus $^{32}$Mg is considered as an archetypal example of the disappearance of magicity at $N=20$. We report on high statistics in-beam spectroscopy of $^{32}$Mg with a unique approach, in that two direct reaction probes with different sensitivities to the underlying nuclear structure are employed at the same time. More specifically, states in $^{32}$Mg were populated by knockout reactions starting from $^{33}$Mg and $^{34}$Si, lying inside and outside the island of inversion, respectively. The momentum distributions of the reaction residues and the cross sections leading to the individual final states were confronted with eikonal-based reaction calculations, yielding a significantly updated level scheme for $^{32}$Mg and spin-parity assignments. By fully exploiting observables obtained in this measurement, a variety of structures coexisting in 32Mg was unraveled. Comparisons with theoretical predictions based on shell-model overlaps allowed for clear discrimination between different structural models, revealing that the complete theoretical description of this key nucleus is yet to be achieved., N.K. acknowledges support of the Grant-in-Aid for JSPS Fellows (18J12542) from the Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan. K.W. acknowledges support from the Ministerio de Ciencia e Innovación (Spain) through the Ramón y Cajal program RYC-2017-22007. A.P. is supported in part by the Ministerio de Ciencia, Innovación y Universidades (Spain), Severo Ochoa program SEV-2016-0597 and grant PGC-2018-94583. The SDPF-M calculations were enabled by the CNS-RIKEN joint project for large-scale nuclear structure calculations and were performed mainly on the Oakforest-PACS supercomputer. N.S. acknowledges support from “Priority Issue on post-K computer” (hp190160) and “Program for Promoting Researches on the Supercomputer Fugaku” (hp200130) by JICFuS and MEXT, Japan. J.A.T. acknowledges support from the U.K. Science and Technology Facilities Council Grant No. ST/L005743/1. This work was supported by the U.S. Department of Energy (DOE), Office of Science, Office of Nuclear Physics, under Grant No. DE-SC0020451 and by the U.S. National Science Foundation (NSF) under Grant No. PHY-1306297. GRETINA was funded by the U.S. DOE, Office of Science. Operation of the array at NSCL was supported by the U.S. NSF under Cooperative Agreement No. PHY-1102511 (NSCL) and DOE under Grant No. DE-AC02-05CH11231 (LBNL).

Published

2021

11. Quenching of single-particle strength from direct reactions with stable and rare-isotope beams

Author

A. M. Moro, Thomas Aumann, Daniel Bazin, Kazuyuki Ogata, Takashi Nakamura, Carlo Barbieri, M. Gómez-Ramos, Angela Bonaccorso, T. Uesaka, Carlos A. Bertulani, Alexandre Obertelli, Stefanos Paschalis, Alexandra Gade, W. H. Dickhoff, and B. P. Kay

Subjects

Physics, Nuclear reaction, Nuclear and High Energy Physics, Quenching (fluorescence), Isotope, Nuclear Theory, 010308 nuclear & particles physics, Scattering, media_common.quotation_subject, Nuclear structure, FOS: Physical sciences, 01 natural sciences, Asymmetry, 3. Good health, Nuclear Theory (nucl-th), Chemical physics, 0103 physical sciences, Particle, ddc:530, Nuclear Experiment (nucl-ex), 010306 general physics, Nuclear Experiment, media_common

Abstract

In this review article we discuss the present status of direct nuclear reactions and the nuclear structure aspects one can study with them. We discuss the spectroscopic information we can assess in experiments involving transfer reactions, heavy-ion-induced knockout reactions and quasifree scattering with (p,2p), (p,pn), and (e,e'p) reactions. In particular, we focus on the proton-to-neutron asymmetry of the quenching of the spectroscopic strength., 138 pages, 63 figures

Published

2020

12. Shape Changes in the N=28 Island of Inversion: Collective Structures Built on Configuration-Coexisting States in S43

Author

Brandon Elman, Alexandra Gade, J. Pereira, D. Rhodes, M. Spieker, Kyle Brown, D. Bazin, Brenden Longfellow, D. Weisshaar, and B. A. Brown

Subjects

Physics, Island of inversion, Isotone, Nuclear Theory, Structure (category theory), General Physics and Astronomy, 01 natural sciences, Nuclear shape, Interpretation (model theory), Chain (algebraic topology), 0103 physical sciences, Quadrupole, Atomic physics, 010306 general physics, Ground state

Abstract

The neutron-rich nuclei in the $N=28$ island of inversion have attracted considerable experimental and theoretical attention, providing great insight into the evolution of shell structure and nuclear shape in exotic nuclei. In this work, for the first time, quadrupole collectivity is assessed simultaneously on top of the $3/{2}^{\ensuremath{-}}$ ground state and the $7/{2}^{\ensuremath{-}}$ shape-coexisting isomer of $^{43}\mathrm{S}$, putting the unique interpretation of shape and configuration coexistence at $N=27$ and 28 in the sulfur isotopic chain to the test. From an analysis of the electromagnetic transition strengths and quadrupole moments predicted within the shell model, it is shown that the onset of shape coexistence and the emergence of a simple collective structure appear suddenly in $^{43}\mathrm{S}$ with no indication of such patterns in the $N=27$ isotone $^{45}\mathrm{Ar}$.

Published

2020

13. Structure of Mg30 explored via in-beam γ -ray spectroscopy

Author

T. Kröll, Naofumi Tsunoda, D. Weisshaar, Thomas Redpath, C. Bancroft, F. Recchia, A. Westerberg, S. Saenz, Christoph Langer, Kathrin Wimmer, Eric Lunderberg, N. Kitamura, Noritaka Shimizu, S.R. Stroberg, D. Smalley, T.R. Baugher, J. S. Berryman, Y. Utsuno, D. Barofsky, J. Lloyd, N. Imai, V. M. Bader, Alexandra Gade, J. A. Tostevin, V. Bildstein, G. Perdikakis, and D. Bazin

Subjects

Physics, 010308 nuclear & particles physics, Island of inversion, Nuclear structure, 01 natural sciences, Momentum, Excited state, 0103 physical sciences, Gamma spectroscopy, Atomic physics, 010306 general physics, Nucleon, Spectroscopy, Beam (structure)

Abstract

Background: In the "island of inversion", ground states of neutron-rich $sd$-shell nuclei exhibit strong admixtures of intruder configurations from the $fp$ shell. The nucleus $^{30}$Mg, located at the boundary of the island of inversion, serves as a cornerstone to track the structural evolution as one approaches this region. Purpose: Spin-parity assignments for excited states in $^{30}$Mg, especially negative-parity levels, have yet to be established. In the present work, the nuclear structure of $^{30}$Mg was investigated by in-beam $\gamma$-ray spectroscopy mainly focusing on firm spin-parity determinations. Method: High-intensity rare-isotope beams of $^{31}$Mg, $^{32}$Mg, $^{34}$Si, and $^{35}$P bombarded a Be target to induce nucleon removal reactions populating states in $^{30}$Mg. $\gamma$ rays were detected by the state-of-the-art $\gamma$-ray tracking array GRETINA. For the direct one-neutron removal reaction, final-state exclusive cross sections and parallel momentum distributions were deduced. Multi-nucleon removal reactions from different projectiles were exploited to gain complementary information. Results: With the aid of the parallel momentum distributions, an updated level scheme with revised spin-parity assignments was constructed. Spectroscopic factors associated with each state were also deduced. Conclusions: Results were confronted with large-scale shell-model calculations using two different effective interactions, showing excellent agreement with the present level scheme. However, a marked difference in the spectroscopic factors indicates that the full delineation of the transition into the island of inversion remains a challenge for theoretical models.

Published

2020

14. Exploiting Isospin Symmetry to Study the Role of Isomers in Stellar Environments

Author

J. Belarge, Fernando Montes, Brenden Longfellow, Natalia Timofeyuk, J. Browne, D. T. Doherty, Konrad Schmidt, R. G. T. Zegers, D. Weisshaar, W.-J. Ong, P. C. Bender, E. Lunderberg, A. Estrade, Hendrik Schatz, D. Seweryniak, S. Hallam, Gavin Lotay, W. N. Catford, M. Moukaddam, Patrick O'Malley, Brandon Elman, M. R. Hall, Alexandra Gade, and B. A. Brown

Subjects

Physics, Thermal equilibrium, Proton, Presolar grains, General Physics and Astronomy, Atmospheric temperature range, 01 natural sciences, Isospin, Excited state, 0103 physical sciences, Content (measure theory), Nuclear force, Atomic physics, 010306 general physics

Abstract

Proton capture on the excited isomeric state of ^{26}Al strongly influences the abundance of ^{26}Mg ejected in explosive astronomical events and, as such, plays a critical role in determining the initial content of radiogenic ^{26}Al in presolar grains. This reaction also affects the temperature range for thermal equilibrium between the ground and isomeric levels. We present a novel technique, which exploits the isospin symmetry of the nuclear force, to address the long-standing challenge of determining proton-capture rates on excited nuclear levels. Such a technique has in-built tests that strongly support its veracity and, for the first time, we have experimentally constrained the strengths of resonances that dominate the astrophysical ^{26m}Al(p,γ)^{27}Si reaction. These constraints demonstrate that the rate is at least a factor ∼8 lower than previously expected, indicating an increase in the stellar production of ^{26}Mg and a possible need to reinvestigate sensitivity studies involving the thermal equilibration of ^{26}Al.

Published

2020

15. Structure of Si33 and the magicity of the N=20 gap at Z=14

Author

F. Rotaru, Kathrin Wimmer, A. Mutschler, A. Lemasson, F. Nowacki, H. Iwasaki, T. Roger, Alexandra Gade, S. R. Stroberg, C. Borcea, M. Vanderbrouck, D. Weisshaar, M. Wiedeking, R. Borcea, O. Sorlin, P. Papka, E. Khan, M. Stanoiu, A. Lepailleur, F. Recchia, D. Bazin, J. A. Tostevin, and S. Jongile

Subjects

Physics, education.field_of_study, Spectrometer, 010308 nuclear & particles physics, SHELL model, Population, Shell (structure), 01 natural sciences, Superconducting cyclotron, Atomic orbital, 0103 physical sciences, Neutron, Atomic physics, 010306 general physics, education, Beam (structure)

Abstract

The structure of ³³Si was studied by a one-neutron knockout reaction from a ³⁴Si beam at 98.5 MeV/u incident on a 9 Be target. The prompt γ rays following the de-excitation of ³³Si were detected using the GRETINA γ -ray tracking array while the reaction residues were identified on an event-by-event basis in the focal plane of the S800 spectrometer at the National Superconducting Cyclotron Laboratory. The presently derived spectroscopic factor values, C 2 S , for the 3 / 2 + and 1 / 2 + states, corresponding to a neutron removal from the 0 d 3 / 2 and 1 s 1 / 2 orbitals, agree with shell model calculations and point to a strong N = 20 shell closure. Three states arising from the more bound 0 d 5 / 2 orbital are proposed, one of which is unbound by about 930 keV. The sensitivity of this experiment has also confirmed a weak population of 9 / 2 − and 11 / 2 − 1 , 2 final states, which originate from a higher-order process. This mechanism may also have populated, to some fraction, the 3 / 2 − and 7 / 2 − negative-parity states, which hinders a determination of the C 2 S values for knockout from the normally unoccupied 1 p 3 / 2 and 0 f 7 / 2 orbits.

Published

2020

16. Publisher’s Note: Direct Lifetime Measurements of the Excited States in Ni72 [Phys. Rev. Lett. 116 , 122502 (2016)]

Author

Robert Grzywacz, D. Bazin, L. L. Riedinger, W. B. Walters, A. Lemasson, D.W. Miller, Alexandra Gade, Mauricio Portillo, K. Kolos, K. Whitmore, Mustafa Rajabali, H. Iwasaki, J. A. Tostevin, M. Madurga, Mohammad Alshudifat, F. Recchia, Sean Liddick, Thomas Braunroth, D. Weisshaar, G. Cerizza, C. Morse, C. R. Bingham, P. Voss, and Kathrin Wimmer

Subjects

Physics, Published Erratum, Excited state, General Physics and Astronomy, Atomic physics

Published

2020

17. Erratum: Inverse-kinematics proton scattering from S42,44,P41,43 , and the collapse of the N=28 major shell closure [Phys. Rev. C 100 , 044312 (2019)]

Author

Eric Lunderberg, Alexander Volya, E. B. Haldeman, L. A. Riley, M. A. Liggett, L. M. Skiles, Brenden Longfellow, Alexandra Gade, J. C. Zamora, R. G. T. Zegers, S. D. Gregory, K. W. Kemper, D. Weisshaar, D. Bazin, P. C. Bender, B. A. Brown, J. Belarge, S. Lipschutz, Brandon Elman, J. Pereira, B. R. Klybor, T. Mijatović, P. D. Cottle, and R. Titus

Subjects

Physics, Inverse kinematics, Proton scattering, Quantum electrodynamics, Shell (structure), Closure (topology), Collapse (topology)

Published

2020

18. Nuclear Mass Measurements Map the Structure of Atomic Nuclei and Accreting Neutron Stars

Author

B. A. Brown, Sherry Towers, David J. Morrissey, Hendrik Schatz, J. F. Carpino, John Yurkon, R. G. T. Zegers, Kathrin Wimmer, J. Stevens, Alfredo Estrade, M. Scott, H. Chung, J. R. Winkelbauer, W. Mittig, Sebastian George, Dan Shapira, Michael Famiano, Karl Smith, S. Ahn, J. Pereira, Milan Matos, J. Browne, Richard H. Cyburt, Zach Meisel, J. Schatz, Wanpeng Tan, Fernando Montes, D. Bazin, Oleg B. Tarasov, Alexandra Gade, and C. Langer

Subjects

Physics, Isotope, Nuclear Theory, 010308 nuclear & particles physics, Structure (category theory), FOS: Physical sciences, Mass spectrometry, 01 natural sciences, Nuclear Theory (nucl-th), Neutron star, Superconducting cyclotron, 0103 physical sciences, Atomic nucleus, Nuclear Experiment (nucl-ex), Connection (algebraic framework), Atomic physics, 010306 general physics, Nuclear theory, Nuclear Experiment

Abstract

We present mass excesses (ME) of neutron-rich isotopes of Ar through Fe, obtained via TOF-$B\rho$ mass spectrometry at the National Superconducting Cyclotron Laboratory. Our new results have significantly reduced systematic uncertainties relative to a prior analysis, enabling the first determination of ME for $^{58,59}{\rm Ti}$, $^{62}{\rm V}$, $^{65}{\rm Cr}$, $^{67,68}{\rm Mn}$, and $^{69,70}{\rm Fe}$. Our results show the $N=34$ subshell weaken at Sc and vanish at Ti, along with the absence of an $N=40$ subshell at Mn. This leads to a cooler accreted neutron star crust, highlighting the connection between the structure of nuclei and neutron stars., Comment: Accepted for publication as a Rapid Communication in Physical Review C

Published

2020

19. Establishing the Maximum Collectivity in Highly Deformed N=Z Nuclei

Author

Brandon Elman, E. Lunderberg, T. Haylett, Scott Milne, D. G. Jenkins, Alexandra Gade, H. Iwasaki, Brenden Longfellow, D. Rhodes, Jacek Dobaczewski, David Muir, R. Wadsworth, Bo Cederwall, M. A. Bentley, P. C. Bender, R. D. O. Llewellyn, G. de Angelis, Alessandro Pastore, M. Doncel, D. Bazin, T. Mijatović, D. Weisshaar, M. Grinder, I. Y. Lee, R. Elder, Benjamin P. Crider, and J. Ash

Subjects

Physics, education.field_of_study, Population, General Physics and Astronomy, Context (language use), 01 natural sciences, Excited state, Yield (chemistry), 0103 physical sciences, lifetimes, Atomic physics, 010306 general physics, education, Nuclear Experiment, Line (formation)

Abstract

The lifetimes of the first excited 2^{+} states in the N=Z nuclei ^{80}Zr, ^{78}Y, and ^{76}Sr have been measured using the γ-ray line shape method following population via nucleon-knockout reactions from intermediate-energy rare-isotope beams. The extracted reduced electromagnetic transition strengths yield new information on where the collectivity is maximized and provide evidence for a significant, and as yet unexplained, odd-odd vs even-even staggering in the observed values. The experimental results are analyzed in the context of state-of-the-art nuclear density-functional model calculations.

Published

2020

20. Study of correlation effects in nuclei at the limit of stability. Final report

Author

Alexandra Gade

Subjects

Physics, Correlation, Quantum electrodynamics, Limit (mathematics), Stability (probability)

Published

2020

21. Experimental identification of the T=1 , Jπ=6+ state of Co54 and isospin symmetry in A=54 studied via one-nucleon knockout reactions

Author

Brandon Elman, M. A. Bentley, J. R. Brown, A. Ratkiewicz, M. Hill, P. Adrich, C. M. Campbell, M. Spieker, J. A. Tostevin, Boris Pritychenko, B. A. Brown, Brenden Longfellow, Alexandra Gade, D. Weisshaar, D. Rhodes, C. Aa. Diget, D. Bazin, and T. Glasmacher

Subjects

Physics, 010308 nuclear & particles physics, Nuclear Theory, Observable, 01 natural sciences, 7. Clean energy, Symmetry (physics), Matrix (mathematics), Isospin, 0103 physical sciences, Effective field theory, Atomic physics, 010306 general physics, Nucleon, Multiplet, Spin-½

Abstract

New experimental data obtained from γ-ray tagged one-neutron and one-proton knockout from 55Co is presented. A candidate for the sought-after T = 1, T z = 0, Jπ = 6+ state in 54Co is proposed based on a comparison to the new data on 54Fe, the corresponding observables predicted by large-scale-shell-model (LSSM) calculations in the full fp-model space employing charge-dependent contributions, and isospin-symmetry arguments. Furthermore, possible isospin-symmetry breaking in the A = 54, T = 1 triplet is studied by calculating the experimental c coefficients of the isobaric mass multiplet equation (IMME) up to the maximum possible spin J = 6 expected for the (1f7/2)-2 two-hole configuration relative to the doubly-magic nucleus 56Ni. The experimental quantities are compared to the theoretically predicted c coefficients from LSSM calculations using two-body matrix elements obtained from a realistic chiral effective field theory potential at next-to-next-to-next-to leading order (N3LO).

Published

2019

22. Enhanced collectivity in 12Be

Author

Timothy Johnson, Alexandra Gade, E. A. McCutchan, D. Weisshaar, C. Morse, Alejandro Sonzogni, E. Merchan, C. Loelius, S. Beceiro Novo, V.S. Prasher, K. Whitmore, F. Recchia, D. Bazin, E. Lunderberg, V. M. Bader, P. Chowdhury, C. J. Lister, and H. Iwasaki

Subjects

Physics, Quenching, Collectivity, Lifetimes, Nuclear transition probabilities, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Attenuation, Shell (structure), Inelastic scattering, 01 natural sciences, lcsh:QC1-999, symbols.namesake, Excited state, 0103 physical sciences, Quadrupole, symbols, High Energy Physics::Experiment, Atomic physics, Nuclear Experiment, 010306 general physics, Nucleon, Doppler effect, lcsh:Physics

Abstract

Electromagnetic quadrupole transition strength is a sensitive probe of the evolution of the structure of nuclei, particularly the competition between collectivity and magicity. We have performed a new lifetime measurement of the 2 1 + state of 12Be to study the interplay of these phenomena. The lifetime was measured with the Doppler Shift Attenuation Method using the γ-ray detector GRETINA. Excited states of 12Be were produced via inelastic scattering at 55 MeV/nucleon, using several different targets to control for systematic uncertainties in the stopping powers. The lifetime is determined to be τ = 1.38 ± 0.10 (stat) ± 0.19 (sys) ps, which is about half the previously reported value at twice the precision. The reduced transition strength deduced from this result is B ( E 2 ; 2 1 + → 0 1 + ) = 14.2 ± 1.0 (stat) ± 2.0 (sys) e 2 fm 4 , which supports the quenching of the N = 8 shell gap in 12Be.

Published

2018

23. Nucleon correlations and the structure ofZn413071

Author

A. Wiens, John P. Greene, S. Zhu, W. B. Walters, Takaharu Otsuka, C. M. Campbell, M. Q. Buckner, A. O. Macchiavelli, D. Seweryniak, H. L. Crawford, A. Korichi, M. Cromaz, Alexandra Gade, H. M. David, C. J. Chiara, J. Sethi, R. V. F. Janssens, P. Fallon, D. Cline, Yusuke Tsunoda, Brian Bucher, A. D. Ayangeakaa, S. Bottoni, J. L. Harker, A. B. Hayes, D. Weisshaar, M. P. Carpenter, T. Lauritsen, B. P. Kay, Calem Hoffman, and Ching-Yen Wu

Subjects

Physics, Nuclear and High Energy Physics, Valence (chemistry), 010308 nuclear & particles physics, Nuclear Theory, 01 natural sciences, symbols.namesake, Pairing, 0103 physical sciences, Oblate spheroid, symbols, Neutron, Gammasphere, Atomic physics, Nuclear Experiment, 010306 general physics, Nucleon, Hamiltonian (quantum mechanics)

Abstract

The structure of 71Zn was investigated by one-neutron transfer and heavy-ion induced complex (deep-inelastic) reactions using the GRETINA-CHICO2 and the Gammasphere setups, respectively. The observed inversion between the 9/2+ and 1/2− states is explained in terms of the role of neutron pairing correlations. Non-collective sequences of levels were delineated above the 9/2+ isomeric state. These are interpreted as being associated with a modest oblate deformation in the framework of Monte-Carlo shell-model calculations carried out with the A3DA-m Hamiltonian in the p f g 9 / 2 d 5 / 2 valence space. Similarities with the structure of Ni 40 28 68 were observed and the shape-coexistence mechanism in the N = 40 region of neutron-rich nuclei is discussed in terms of the so-called Type-II shell evolution, with an emphasis on proton–neutron correlations between valence nucleons, especially those involving the shape-driving g 9 / 2 neutron orbital.

Published

2017

24. Measurement of key resonance states for the P30(p,γ)S31 reaction rate, and the production of intermediate-mass elements in nova explosions

Author

Filomena Nunes, J. Stevens, R. Stroberg, V. M. Bader, P. J. Woods, Shumpei Noji, F. Recchia, C. Langer, A. Estrade, J. Browne, Zach Meisel, T.R. Baugher, Kathrin Wimmer, T. Poxon-Pearson, Daniel Bazin, Hendrik Schatz, B. A. Brown, Alexandra Gade, D. Seweryniak, Gavin Lotay, Remco Zegers, G. Perdikakis, M. Scott, Antonios Kontos, T. Redpath, Anu Kankainen, D. T. Doherty, J. Pereira, D. Weisshaar, Jordi José, and Fernando Montes

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Astrophysics::High Energy Astrophysical Phenomena, Presolar grains, 01 natural sciences, Nuclear physics, Reaction rate, symbols.namesake, Nucleosynthesis, 0103 physical sciences, symbols, Astrophysics::Solar and Stellar Astrophysics, Atomic physics, 010306 general physics, Hamiltonian (quantum mechanics), Ejecta, Order of magnitude

Abstract

We report the first experimental constraints on spectroscopic factors and strengths of key resonances in the 30P(p, γ)31Sreaction critical for determining the production of intermediate-mass elements up to Ca in nova ejecta. The 30P(d, n)31Sreaction was studied in inverse kinematics using the GRETINA γ-ray array to measure the angle-integrated cross-sections of states above the proton threshold. In general, negative-parity states are found to be most strongly produced but the absolute values of spectroscopic factors are typically an order of magnitude lower than predicted by the shell-model calculations employing WBP Hamiltonian for the negative-parity states. The results clearly indicate the dominance of a single 3/2−resonance state at 196 keV in the region of nova burning T≈0.10–0.17GK, well within the region of interest for nova nucleosynthesis. Hydrodynamic simulations of nova explosions have been performed to demonstrate the effect on the composition of nova ejecta.

Published

2017

25. White paper on nuclear astrophysics and low-energy nuclear physics, Part 2: Low-energy nuclear physics

Author

L. G. Sobotka, C. R. Howell, J. B. Natowitz, Carl J Gross, Guy Savard, Michael P. Carpenter, Thomas Papenbrock, R. F. Casten, Martin J. Savage, Witold Nazarewicz, Charlotte Elster, Elizabeth A. McCutchen, A. H. Wuosmaa, Alexandra Gade, K. L. Jones, Sherry Yennello, P. Fallon, M. A. Stoyer, B. M. Sherrill, Gaute Hagen, Kai Vetter, M. A. Riley, Charles Horowitz, A. O. Macchiavelli, Ingo Wiedenhoever, Suzanne E. Lapi, Sanjay Reddy, Douglas Higinbotham, J. Carlson, Anna Hayes, M. Betty Tsang, and Filip G Kondev

Subjects

Physics, Nuclear and High Energy Physics, Enthusiasm, 010308 nuclear & particles physics, media_common.quotation_subject, Nuclear data, Plan (drawing), 01 natural sciences, Nuclear physics, White paper, Low energy, Anticipation (artificial intelligence), 0103 physical sciences, Nuclear astrophysics, Nuclear science, 010306 general physics, media_common

Abstract

Over the last decade, the Low-Energy Nuclear Physics (LENP) and Nuclear Astrophysics (NAP) communities have increasingly organized themselves in order to take a coherent approach to resolving the challenges they face. As a result, there is a high level of optimism in view of the unprecedented opportunities for substantial progress. In preparation of the 2015 US Nuclear Science Long Range Plan (LRP), the two American Physical Society Division of Nuclear Physics town meetings on LENP and NAP were held jointly on August 21–23, 2014, at Texas A&M, College Station, in Texas. These meetings were co-organized to take advantage of the strong synergy between the two fields. The present White Paper attempts to communicate the sense of great anticipation and enthusiasm that came out of these meetings. A unanimously endorsed set of joint resolutions condensed from the individual recommendations of the two town meetings were agreed upon. The present LENP White Paper discusses the above and summarizes in detail for each of the sub-fields within low-energy nuclear physics, the major accomplishments since the last LRP, the compelling near-term and long-term scientific opportunities plus the resources needed to achieve these goals, along with the scientific impact on, and interdisciplinary connections to, other fields.

Published

2017

26. High-energy-electron scattering probes the strong nuclear interaction at close range

Author

Alexandra Gade

Subjects

Physics, Multidisciplinary, 010308 nuclear & particles physics, Scattering, Nuclear Theory, Electron, Radiation, 01 natural sciences, Nuclear physics, Core (optical fiber), Nuclear interaction, Neutron star, 0103 physical sciences, Atomic nucleus, Nuclear Experiment, 010306 general physics, Electron scattering

Abstract

The dense soup of matter in the core of neutron stars is hard to model, but particle-accelerator experiments in which energetic electrons scatter off atomic nuclei could help to explore this high-density regime. A test of effective nucleon–nucleon interactions at short separations.

Published

2020

27. Inverse-kinematics proton scattering from S42,44, P41,43 , and the collapse of the N=28 major shell closure

Author

J. C. Zamora, Alexandra Gade, Alexander Volya, K. W. Kemper, R. G. T. Zegers, E. B. Haldeman, D. Weisshaar, M. A. Liggett, Brandon Elman, Brenden Longfellow, B. A. Brown, P. C. Bender, B. R. Klybor, P. D. Cottle, E. Lunderberg, J. Pereira, T. Mijatović, R. Titus, L. A. Riley, S. D. Gregory, J. Belarge, S. Lipschutz, L. M. Skiles, and D. Bazin

Subjects

Physics, Matrix (mathematics), Closure (mathematics), 010308 nuclear & particles physics, Excited state, Proton scattering, 0103 physical sciences, Shell (structure), Collapse (topology), Atomic physics, 010306 general physics, 01 natural sciences

Abstract

Excited states of the neutron-rich isotopes $^{42,44}\mathrm{S}$ and $^{41,43}\mathrm{P}$ have been studied via inverse-kinematics proton scattering from a liquid hydrogen target, using the GRETINA $\ensuremath{\gamma}$-ray tracking array to extract inelastic-scattering cross sections. Deformation lengths of the ${2}_{1}^{+}$ excitations in $^{42,44}\mathrm{S}$ have been determined and, when combined with deformation lengths determined with electromagnetic probes, yield the ratio of neutron-to-proton matrix elements ${M}_{n}/{M}_{p}$ for the ${2}_{1}^{+}$ excitations in these nuclei. The present results for $^{41,43}\mathrm{P}(p,{p}^{\ensuremath{'}})$ are used to compare two shell-model interactions, SDPF-U and SDPF-MU. As in a recent study of $^{42}\mathrm{Si}$, the present results on $^{41,43}\mathrm{P}$ favor the SDPF-MU interaction.

Published

2019

28. Intruder dominance in the 02+ state of Mg32 studied with a novel technique for in-flight decays

Author

Brenden Longfellow, D. Weisshaar, Nobuyuki Kobayashi, P. C. Bender, Thomas Braunroth, M. Grinder, H. L. Crawford, A. Revel, A. O. Macchiavelli, J. A. Tostevin, J. Pereira, D. Bazin, Alexandra Gade, C. M. Campbell, B. A. Brown, D. Rhodes, Brandon Elman, R. Elder, H. Iwasaki, J. Ash, and T. Mijatović

Subjects

Physics, Novel technique, Nuclear physics, 010308 nuclear & particles physics, Position resolution, 0103 physical sciences, Nuclear Experiment, 010306 general physics, 01 natural sciences

Abstract

The development of advanced γ-ray tracking arrays allows for a sensitive new technique to investigate elusive states of exotic nuclei with fast rare-isotope beams. By taking advantage of the excellent energy and position resolution of the Gamma-Ray Energy Tracking In-beam Nuclear Array, we developed a novel technique to identify in-flight isomeric decays of the 0⁺₂ state in 32Mg populated in a two-proton removal reaction. We confirm the 0⁺₂→2+1γ-ray transition of ³²Mg and constrain the 0⁺₂ decay lifetime, suggesting a large collectivity. The small partial cross section populating the 0⁺₂ state in this reaction provides experimental evidence for the reduced occupancy of the normal configuration of the 0⁺₂ state, indicating the intruder dominance of this state.

Published

2019

29. Experimental constraint on stellar electron-capture rates from the Sr88(t,He3+γ)Rb88 reaction at 115 MeV/u

Author

Jonathan Engel, J. C. Zamora, P. Gastis, E. M. Ney, H. L. Crawford, A. O. Macchiavelli, Alexandra Gade, Sam M. Austin, J. Schmitt, R. G. T. Zegers, Ashton Falduto, D. Weisshaar, R. Titus, C. J. Guess, P. C. Bender, B. Gao, D. Bazin, Kenjiro Miki, Shumpei Noji, T. N. Ginter, C. Sullivan, Brenden Longfellow, S. Lipschutz, J. Pereira, and B. A. Brown

Subjects

Physics, 010308 nuclear & particles physics, Electron capture, 01 natural sciences, Nuclear physics, symbols.namesake, Supernova, Pauli exclusion principle, Distribution (mathematics), 0103 physical sciences, Quasiparticle, symbols, 010306 general physics, Excitation, Order of magnitude, Energy (signal processing)

Abstract

The Gamow-Teller strength distribution from ${}^{88}$Sr was extracted from a $(t,{}^{3}\text{He}+\gamma)$ experiment at 115 MeV/$u$ to constrain estimates for the electron-capture rates on nuclei around $N=50$, between and including $^{78}$Ni and $^{88}$Sr, which are important for the late evolution of core-collapse supernovae. The observed strength below an excitation energy of 8 MeV was consistent with zero and below 10 MeV amounted to $0.1\pm0.05$. Except for a very-weak transition that could come from the 2.231-MeV $1^{+}$ state, no $\gamma$ lines that could be associated with the decay of known $1^{+}$ states were identified. The derived electron-capture rate from the measured strength distribution is more than an order of magnitude smaller than rates based on the single-state approximation presently used in astrophysical simulations for most nuclei near $N=50$. Rates based on shell-model and quasiparticle random-phase approximation calculations that account for Pauli blocking and core-polarization effects provide better estimates than the single-state approximation, although a relatively strong transition to the first $1^{+}$ state in $^{88}$Rb is not observed in the data. Pauli unblocking effects due to high stellar temperatures could partially counter the low electron-capture rates. The new data serves as a zero-temperature benchmark for constraining models used to estimate such effects.

Published

2019

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

Author

Brenden Longfellow, D. Bazin, B. A. Brown, Ryo Taniuchi, D. Weisshaar, J. Belarge, P. Fallon, P. C. Bender, C. J. Prokop, W. B. Walters, Brandon Elman, H. L. Crawford, A. D. Ayangeakaa, Sean Liddick, E. Lunderberg, S. Zhu, A. M. Forney, Alexandra Gade, J. Sethi, J. L. Harker, R. V. F. Janssens, Benjamin P. Crider, C. M. Campbell, and M. P. Carpenter

Subjects

Physics, education.field_of_study, Proton, 010308 nuclear & particles physics, Population, Shell (structure), Prolate spheroid, 01 natural sciences, Excited state, 0103 physical sciences, Neutron, Atomic physics, 010306 general physics, education, Nucleon

Abstract

Author(s): 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; Zhu, S | 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

31. Evidence for Rigid Triaxial Deformation in Ge76 from a Model-Independent Analysis

Author

R. V. F. Janssens, H. L. Crawford, Alexandra Gade, D. Cline, D. Rhodes, D. J. Hartley, S. Stolze, M. Albers, A. D. Ayangeakaa, P. Fallon, M. P. Carpenter, W. B. Walters, D. Seweryniak, Krishichayan, Ching-Yen Wu, D. Little, P. Chowdhury, A. B. Hayes, A. M. Forney, A. O. Macchiavelli, Kalle Auranen, Jin Wu, J. Li, Jack Henderson, Brian Bucher, T. Lauritsen, F. G. Kondev, and S. Zhu

Subjects

Physics, Basis (linear algebra), media_common.quotation_subject, General Physics and Astronomy, Coulomb excitation, Deformation (meteorology), Statistical fluctuations, 16. Peace & justice, 01 natural sciences, Asymmetry, Molecular physics, Matrix (mathematics), 0103 physical sciences, Quadrupole, 010306 general physics, Nuclear theory, media_common

Abstract

An extensive, model-independent analysis of the nature of triaxial deformation in ^{76}Ge, a candidate for neutrinoless double-beta (0νββ) decay, was carried out following multistep Coulomb excitation. Shape parameters deduced on the basis of a rotational-invariant sum-rule analysis provided considerable insight into the underlying collectivity of the ground-state and γ bands. Both sequences were determined to be characterized by the same β and γ deformation parameter values. In addition, compelling evidence for low-spin, rigid triaxial deformation in ^{76}Ge was obtained for the first time from the analysis of the statistical fluctuations of the quadrupole asymmetry deduced from the measured E2 matrix elements. These newly determined shape parameters are important input and constraints for calculations aimed at providing, with suitable accuracy, the nuclear matrix elements relevant to 0νββ.

Published

2019

32. Spectroscopy and lifetime measurements near the proton drip line: P26,27,28

Author

D. Weisshaar, Alexandra Gade, P. C. Bender, P. D. Cottle, E. Lunderberg, D. Bazin, M. Bowry, S. J. Williams, M. Spieker, B. A. Brown, Brandon Elman, A. Magilligan, and Brenden Longfellow

Subjects

Physics, Proton, 010308 nuclear & particles physics, Astrophysics::High Energy Astrophysical Phenomena, Resonance, Phosphorus Isotopes, 01 natural sciences, 7. Clean energy, Excited state, 0103 physical sciences, Mirror nuclei, Atomic physics, 010306 general physics, Spectroscopy, Line (formation)

Abstract

We report on the observation of excited states in the neutron-deficient phosphorus isotopes $^{26,27,28}\mathrm{P}$ via in-beam $\ensuremath{\gamma}$-ray spectroscopy with both high-efficiency and high-resolution detector arrays. In $^{26}\mathrm{P}$, a previously unobserved level has been identified at 244(3) keV, two new measurements of the astrophysically important $3/{2}^{+}$ resonance in $^{27}\mathrm{P}$ have been performed, $\ensuremath{\gamma}$ decays have been assigned to the proton-unbound levels at 2216 and 2483 keV in $^{28}\mathrm{P}$, and the $\ensuremath{\gamma}$-ray line-shape method has been used to make the first determination of the lifetimes of the two lowest-lying excited states in $^{28}\mathrm{P}$. The expected Thomas-Ehrman shifts were calculated and applied to levels in the mirror nuclei. The resulting level energies from this procedure were then compared with the energies of known states in $^{26,27,28}\mathrm{P}$.

Published

2019

33. Constraining the Neutron Star Compactness: Extraction of the Al23(p,γ) Reaction Rate for the rp Process

Author

B. A. Brown, Brenden Longfellow, Fernando Montes, J. Browne, Christoph Langer, P. Gastis, Eric Deleeuw, J. Schmitt, D. Bazin, H. L. Crawford, Konrad Schmidt, W. A. Richter, Alexandra Gade, W.-J. Ong, Philip Woods, Richard H. Cyburt, Rene Reifarth, P. C. Bender, Z. Meisel, J. Pereira, C. Wolf, C. Sullivan, R. Titus, Sara Ayoub, Brandon Elman, Thomas Baumann, J. C. Zamora, Francis M. F. Nunes, G. Perdikakis, S. Lipschutz, S. Ahn, R. G. T. Zegers, D. Weisshaar, T. Poxon-Pearson, Hendrik Schatz, and S. Fiebiger

Subjects

Physics, Chemical substance, General Physics and Astronomy, rp-process, Type (model theory), 01 natural sciences, Nuclear physics, Reaction rate, Neutron star, Compact space, 0103 physical sciences, Neutron detection, 010306 general physics, Spectrograph

Abstract

The ^{23}Al(p,γ)^{24}Si reaction is among the most important reactions driving the energy generation in type-I x-ray bursts. However, the present reaction-rate uncertainty limits constraints on neutron star properties that can be achieved with burst model-observation comparisons. Here, we present a novel technique for constraining this important reaction by combining the GRETINA array with the neutron detector LENDA coupled to the S800 spectrograph at the National Superconducting Cyclotron Laboratory. The ^{23}Al(d,n) reaction was used to populate the astrophysically important states in ^{24}Si. This enables a measurement in complete kinematics for extracting all relevant inputs necessary to calculate the reaction rate. For the first time, a predicted close-lying doublet of a 2_{2}^{+} and (4_{1}^{+},0_{2}^{+}) state in ^{24}Si was disentangled, finally resolving conflicting results from two previous measurements. Moreover, it was possible to extract spectroscopic factors using GRETINA and LENDA simultaneously. This new technique may be used to constrain other important reaction rates for various astrophysical scenarios.

Published

2019

34. One-proton and one-neutron knockout reactions from N=Z=28Ni56 to the A=55 mirror pair Co55 and Ni55

Author

Boris Pritychenko, T. Glasmacher, P. Adrich, Brenden Longfellow, C. M. Campbell, M. A. Bentley, J. R. Brown, B. A. Brown, C. Aa. Diget, Alexandra Gade, Brandon Elman, M. Spieker, D. Rhodes, D. Bazin, D. Weisshaar, M. Hill, A. Ratkiewicz, and J. A. Tostevin

Subjects

Physics, Proton, 010308 nuclear & particles physics, media_common.quotation_subject, Nuclear structure, 01 natural sciences, Asymmetry, Excited state, 0103 physical sciences, Neutron, Mirror nuclei, Atomic physics, 010306 general physics, Spectroscopy, Mirror symmetry, media_common

Abstract

We present a high-resolution in-beam γ-ray spectroscopy study of excited states in the mirror nuclei 55Co and 56Ni following one-nucleon knockout from a projectile beam of 56Ni. The newly determined partial cross sections and the γ-decay properties of excited states provide a test of state-of-the-art nuclear structure models and probe mirror symmetry in unique ways. The new experimental data are compared to large-scale shell-model calculations in the full pf space and including charge-dependent contributions. A mirror asymmetry for the partial cross sections leading to the two lowest 3/2− states in the A = 55 mirror pair was identified as well as a significant difference in the E1 decays from the 1/21+ state to the same two 3/2− states. The mirror asymmetry in the partial cross sections cannot be reconciled with the present shell-model picture or small mixing introduced in a two-state model. The observed mirror asymmetry in the E decay pattern, however, points at stronger mixing between the two lowest 3/2− states in 55Co than in its mirror 55Ni.

Published

2019

35. Structure of Fe70 : Single-particle and collective degrees of freedom

Author

S. J. Freeman, J. A. Tostevin, S. Bottoni, M. P. Carpenter, Eric Lunderberg, J. Belarge, P. C. Bender, D. K. Sharp, Brenden Longfellow, T. Lauritsen, Alfredo Poves, L. A. Riley, S. Zhu, Alexandra Gade, D. Weisshaar, R. V. F. Janssens, Brandon Elman, D. Bazin, and S. M. Lenzi

Subjects

Physics, 010308 nuclear & particles physics, Nuclear Theory, Degrees of freedom (physics and chemistry), State (functional analysis), Tracking (particle physics), 01 natural sciences, 7. Clean energy, Molecular physics, Spectral line, medicine.anatomical_structure, Excited state, 0103 physical sciences, medicine, Particle, Nuclear Experiment, 010306 general physics, Nucleon, Nucleus

Abstract

Excited states in the neutron-rich 70 Fe nucleus were populated in a one-proton removal reaction from 71 Co projectiles at 87 MeV/nucleon. A new transition was observed with the γ -ray tracking array GRETINA and shown to feed the previously assigned 4+ 1 state. In comparison to reaction theory calculations with shell-model spectroscopic factors, it is argued that the new γ ray possibly originates from the 6+ 1 state. It is further shown that the Doppler-reconstructed γ -ray spectra are sensitive to the very different lifetimes of the 2+ and 4+ states, enabling their approximate measurement. The emerging structure of 70 Fe is discussed in comparison to LNPS-new large-scale shell-model calculations.

Published

2019

36. Triaxiality in selenium-76

Author

B. A. Brown, H. Iwasaki, M. Spieker, R. Elder, P. C. Bender, T. Mijatović, Ching-Yen Wu, Jack Henderson, D. Weisshaar, J. Ash, Brandon Elman, M. Grinder, Brenden Longfellow, Alexandra Gade, and D. Rhodes

Subjects

Physics, Matrix (mathematics), Degree (graph theory), Quadrupole, Nuclear structure, Order (ring theory), Observable, Coulomb excitation, Atomic physics, Ground state, Spectroscopic factors, electromagnetic transitions

Abstract

Background: Selenium and germanium nuclei are associated with both triaxiality and shape coexistence. The relative influence of these deformation effects on the low-lying nuclear structure remains the subject of much discussion with additional attention drawn to $^{76}\mathrm{Se}$ and $^{76}\mathrm{Ge}$ due to the potential for the observation of neutrinoless double-$\ensuremath{\beta}$ decay.Purpose: Experimental observables related to the deformation of $^{76}\mathrm{Se}$ are lacking in precision. The purpose of the present paper is to provide electric quadrupole matrix elements with improved precision in order to determine the deformation of low-lying states in a model-independent manner.Methods: Sub-barrier Coulomb excitation was employed at the reaccelerated beam facility of the National Superconducting Cyclotron Laboratory using the JANUS setup. Using this method nineteen $E2$ matrix elements were extracted.Results: Extracted matrix elements agree within uncertainties with those in the literature but with improved precision. Through both a comparison with geometric models and a model-independent evaluation of $E2$ matrix elements using rotational invariants, the ground state of $^{76}\mathrm{Se}$ is best described as having a significant triaxial component, but is not maximally triaxially deformed.Conclusions: Selenium-76 exhibits a significant degree of triaxiality in its ground state. A detailed comparison with configuration-interaction calculations indicates that this can be well reproduced theoretically.

Published

2019

37. Enhanced Electric Dipole Strength for the Weakly Bound States in Ne27

Author

I. Syndikus, Brenden Longfellow, Naofumi Tsunoda, P. C. Bender, Brandon Elman, H. Iwasaki, E. Lunderberg, C. Loelius, Takaharu Otsuka, B. A. Brown, N. Kobayashi, A. Hufnagel, D. Weisshaar, Marina Petri, M. Grinder, D. Bazin, R. Elder, Alexandra Gade, K. Whitmore, Sebastian Heil, M. Mathy, and J. Belarge

Subjects

Physics, Dipole, 010308 nuclear & particles physics, Excited state, 0103 physical sciences, Bound state, General Physics and Astronomy, Atomic physics, 010306 general physics, Ground state, 01 natural sciences, Lower limit

Abstract

An enhanced low-energy electric dipole ($E1$) strength is identified for the weakly bound excited states of the neutron-rich isotope $^{27}\mathrm{Ne}$. The Doppler-shift lifetime measurements employing a combination of the $\ensuremath{\gamma}$-ray tracking array GRETINA, the plunger device, and the S800 spectrograph determine the lower limit of $0.030\text{ }\text{ }{e}^{2}\text{ }{\mathrm{fm}}^{2}$ or 0.052 W.u. for the $1/{2}^{+}\ensuremath{\rightarrow}3/{2}^{\ensuremath{-}}\text{ }\text{ }E1$ transition in $^{27}\mathrm{Ne}$, representing one of the strongest $E1$ strengths observed among the bound discrete states in this mass region. This value is at least 30 times larger than that measured for the $3/{2}^{\ensuremath{-}}$ decay to the $3/{2}_{gs}^{+}$ ground state. A comparison of the present results to large-scale shell-model calculations points to an important role of core excitations and deformation in the observed $E1$ enhancement, suggesting a novel example of the electric dipole modes manifested in weakly bound deformed systems.

Published

2018

38. Spectroscopy of proton-rich 79Zr: Mirror energy differences in the highly-deformed fpg shell

Author

Bo Cederwall, M. A. Bentley, Alexandra Gade, Jacek Dobaczewski, D. Rhodes, Scott Milne, M. Doncel, H. Iwasaki, D. Bazin, R. D. O. Llewellyn, Brenden Longfellow, D. Weisshaar, G. de Angelis, J. Ash, I. Y. Lee, R. Wadsworth, P. C. Bender, T. Mijatović, E. Lunderberg, Brandon Elman, T. Haylett, D. G. Jenkins, R. Elder, M. Grinder, Benjamin P. Crider, and W. Satuła

Subjects

Physics, Nuclear and High Energy Physics, education.field_of_study, Proton, 010308 nuclear & particles physics, Nuclear Theory, Population, Shell (structure), 7. Clean energy, 01 natural sciences, Molecular physics, lcsh:QC1-999, nuclear structure, 0103 physical sciences, Coulomb, Isobaric process, Nuclear Experiment, 010306 general physics, Spectroscopy, education, lcsh:Physics, Energy (signal processing), Mixing (physics)

Abstract

Energy differences between isobaric analogue states have been extracted for the A = 79 , 79Zr/79Y mirror pair following their population via nucleon-knockout reactions from intermediate-energy rare-isotope beams. These are the heaviest nuclei where such measurements have been made to date. The deduced mirror energy differences (MED) are compared with predictions from a new density-functional based approach, incorporating isospin-breaking effects of both Coulomb and nuclear charge-symmetry breaking and configuration mixing.

Published

2020

39. GRETINA and Its Early Science

Author

Alexandra Gade, P. Fallon, and I. Y. Lee

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Nuclear structure, Observable, Tracking (particle physics), 01 natural sciences, Speed of light (cellular automaton), Nuclear physics, 0103 physical sciences, Atomic nucleus, Nuclear astrophysics, 010306 general physics, Excitation, Doppler broadening

Abstract

γ-Ray spectroscopy continues to be an important tool for the study of nuclei. Excitation energies can be measured directly and in model-independent ways, and thus are among the key observables that can guide our understanding of atomic nuclei. With the availability of short-lived rare-isotope beams, the development of position sensitivity of γ-ray detection systems has been crucial in combating the Doppler broadening encountered for the energies of γ-rays emitted in flight, which are necessary to obtain good energy resolution while maintaining high efficiency. The advanced γ-ray tracking array GRETINA began its science mission at the National Superconducting Cyclotron Laboratory (NSCL), where rare-isotope beams are produced at velocities exceeding 30% of the speed of light. With selected examples from nuclear structure physics and nuclear astrophysics, we show the breadth and reach of the science program afforded by GRETINA and provide an outlook for what can be accomplished with the full 4π array GRETA at the Facility for Rare Isotope Beams (FRIB).

Published

2016

40. Nuclear structure of 96,98 Mo: Shape coexistence and mixed-symmetry states

Author

G. Ilie, Alexandra Gade, Tan Ahn, A. Fitzler, K. Jessen, Kosuke Nomura, H. Duckwitz, P. Petkov, J. Jolie, A. Linnemann, D. Radeck, M. Hinton, V. Werner, T. Thomas, Norbert Pietralla, C. Fransen, N. Cooper, Grand Accélérateur National d'Ions Lourds (GANIL), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Nuclear reaction, Physics, Nuclear and High Energy Physics, Spins, Proton, 010308 nuclear & particles physics, Nuclear structure, Interacting Boson Model, mixed-symmetry states, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Skyrme energy density functional, Excited state, 0103 physical sciences, Neutron, Nuclear reactions, Interacting boson model, Atomic physics, 010306 general physics, Multipole expansion

Abstract

Excited low-spin states in Mo-96 and Mo-98 have been studied in gamma gamma angular correlation experiments in order to determine spins and multipole mixing ratios. Furthermore, from a Doppler lineshape analysis effective lifetimes tau in the femtosecond range were obtained. The experimental data show a complex spectrum due to configuration mixing, which is confirmed by Interacting Boson Model calculations based on a Skyrme energy density functional. The M1-transition strengths of transitions depopulating excited 2(+) states to the first 2(+) state are discussed in terms of the proton neutron mixed symmetry. (C) 2016 Elsevier B.V. All rights reserved.

Published

2016

41. One- and two-neutron removal cross sections of O24

Author

P. M. King, Carl R. Brune, H. Attanayake, Alexandra Gade, S. M. Grimes, J. A. Tostevin, D. A. Divaratne, Michael Thoennessen, Thomas Baumann, and D. Bazin

Subjects

Physics, 010308 nuclear & particles physics, Projectile, Nuclear Theory, Nuclear structure, Rest frame, 01 natural sciences, Nuclear physics, Momentum, Cross section (physics), Reaction dynamics, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, 0103 physical sciences, Neutron, Nuclear Experiment, 010306 general physics, Ground state

Abstract

Cross sections of one- and two-neutron removal reactions of 24O, leading to the 23O(½+) ground state and to bound final states of 22O, have been measured at the National Superconducting Cyclotron Laboratory. The experiment was conducted using the S800 spectrograph and a 24O beam energy of 92.3 MeV/u. The measured 23O ground state and 22O inclusive cross section values, of 74(11) mb and 146(33) mb, respectively, are in good agreement with calculations using eikonal reaction dynamics and shell-model nuclear structure overlaps. The widths at half maximum of the associated parallel momentum distributions of these cross sections, deduced from Gaussian fits, are 115(13) MeV/c for 23O and 309(36) MeV/c for 22O in the projectile rest frame. The data and calculations strongly support the shell-model description of 24O as a spherical, doubly-magic structure.

Published

2018

42. Localizing the Shape Transition in Neutron-Deficient Selenium

Author

P. C. Bender, Brenden Longfellow, T. Mijatović, H. Iwasaki, M. Spieker, Ching-Yen Wu, E. Kwan, Jack Henderson, M. Grinder, J. Ash, D. Weisshaar, Brandon Elman, Alexandra Gade, and D. Rhodes

Subjects

Physics, 010308 nuclear & particles physics, General Physics and Astronomy, Coulomb excitation, Spectroscopic factors, electromagnetic moments, 01 natural sciences, Isotopes of selenium, 0103 physical sciences, Quadrupole, Neutron, Deformation (engineering), Atomic physics, 010306 general physics, Spin (physics), Beam (structure), Line (formation)

Abstract

Neutron-deficient selenium isotopes are thought to undergo a rapid shape change from a prolate deformation near the line of beta stability towards oblate deformation around the line of N=Z. The point at which this shape change occurs is unknown, with inconsistent predictions from available theoretical models. A common feature in the models is the delicate nature of the point of transition, with the introduction of even a modest spin to the system sufficient to change the ordering of the prolate and oblate configurations. We present a measurement of the quadrupole moment of the first-excited state in radioactive ^{72}Se-a potential point of transition-by safe Coulomb excitation. This is the first low-energy Coulomb excitation to be performed with a rare-isotope beam at the reaccelerated beam facility at the National Superconducting Cyclotron Laboratory. By demonstrating a negative spectroscopic quadrupole moment for the first-excited 2^{+} state, it is found that any low-spin shape change in neutron-deficient selenium does not occur until ^{70}Se.

Published

2018

43. Discovery of Ca60 and Implications For the Stability of Ca70

Author

Hiroyoshi Sakurai, Kensuke Kusaka, DeukSoon Ahn, Kenichi Yoshida, Toshiyuki Sumikama, Mauricio Portillo, D. Bazin, Marc Hausmann, H. Takeda, Hideaki Otsu, Masao Ohtake, B. M. Sherrill, Tetsuro Komatsubara, Toshiyuki Kubo, Y. Yanagisawa, Hiroshi Sato, K. Kawata, Andreas Stolz, Naoki Fukuda, Hiroaki Ueno, Alexandra Gade, Oleg B. Tarasov, Naohito Iwasa, S Ishikawa, Naohito Inabe, T. Sakakibara, Michael Thoennessen, D. J. Morrissey, Y. Shimizu, and Hiroshi Suzuki

Subjects

Physics, Crystallography, Isotope, 010308 nuclear & particles physics, 0103 physical sciences, General Physics and Astronomy, Nuclear drip line, 010306 general physics, 01 natural sciences

Abstract

The discovery of the important neutron-rich nucleus _{20}^{60}Ca_{40} and seven others near the limits of nuclear stability is reported from the fragmentation of a 345 MeV/u ^{70}Zn projectile beam on ^{9}Be targets at the radioactive ion-beam factory of the RIKEN Nishina Center. The produced fragments were analyzed and unambiguously identified using the BigRIPS two-stage in-flight separator. The eight new neutron-rich nuclei discovered, ^{47}P, ^{49}S, ^{52}Cl, ^{54}Ar, ^{57}K, ^{59,60}Ca, and ^{62}Sc, are the most neutron-rich isotopes of the respective elements. In addition, one event consistent with ^{59}K was registered. The results are compared with the drip lines predicted by a variety of mass models and it is found that the models in best agreement with the observed limits of existence in the explored region tend to predict the even-mass Ca isotopes to be bound out to at least ^{70}Ca.

Published

2018

44. Lifetime Measurements and Triple Coexisting Band Structure in S43

Author

C. Loelius, B. A. Brown, Alexandra Gade, N. Kobayashi, H. Iwasaki, D. Bazin, A. Dewald, K. Whitmore, R. Elder, D. Weisshaar, J. Belarge, Sebastian Heil, E. Lunderberg, P. C. Bender, Brandon Elman, T. Mijatović, M. Mathy, M. Grinder, Brenden Longfellow, and T. Haylett

Subjects

Physics, 010308 nuclear & particles physics, SHELL model, General Physics and Astronomy, 01 natural sciences, Excited state, 0103 physical sciences, Atomic physics, 010306 general physics, Electronic band structure, Ground state, Energy (signal processing), Excitation, Doublet state

Abstract

Lifetime measurements of excited states in the neutron-rich nucleus $^{43}\mathrm{S}$ were performed by applying the recoil-distance method on fast rare-isotope beams in conjunction with the Gamma-Ray Energy Tracking In-beam Nuclear Array. The new data based on $\ensuremath{\gamma}\ensuremath{\gamma}$ coincidences and lifetime measurements resolve a doublet of $(3/{2}^{\ensuremath{-}})$ and $(5/{2}^{\ensuremath{-}})$ states at low excitation energies. Results were compared to the $\ensuremath{\pi}(sd)\ensuremath{-}\ensuremath{\nu}(pf)$ shell model and antisymmetrized molecular dynamics calculations. The consistency with the theoretical calculations identifies a possible appearance of three coexisting bands near the ground state of $^{43}\mathrm{S}$: the ${K}^{\ensuremath{\pi}}=1/{2}^{\ensuremath{-}}$ band built on a prolate-deformed ground state, a band built on an isomer with a $1{f}_{7/2}^{\ensuremath{-}1}$ character, and a suggested excited band built on a newly discovered doublet state. The latter further confirms the collapse of the $N=28$ shell closure in the neutron-rich region.

Published

2018

45. Measurement of the F20 half-life

Author

S. Chandavar, M. Hughes, Sean Liddick, D. Weisshaar, S. V. Paulauskas, Oscar Naviliat-Cuncic, X. Huyan, E. A. George, Alexandra Gade, Kei Minamisono, and Paul Voytas

Subjects

Physics, 010308 nuclear & particles physics, 0103 physical sciences, Half-life, Atomic physics, 010306 general physics, Ground state, 01 natural sciences, Radioactive beam

Abstract

The half-life of the $^{20}\mathrm{F}$ ground state was measured using a radioactive beam implanted in a plastic scintillator and recording $\ensuremath{\beta}\ensuremath{\gamma}$ coincidences together with four CsI(Na) detectors. The result, ${T}_{1/2}=11.0011{(69)}_{\mathrm{stat}}{(30)}_{\mathrm{sys}}$ s, is at variance by 17 combined standard deviations with the two most precise results. The present value revives the poor consistency of results for this half-life and calls for a new measurement, with a technique having different sources of systematic effects, to clarify the discrepancy.

Published

2018

46. News on the nuclear structure of neutron-rich nuclei at and beyond N=28

Author

Alexandra Gade

Subjects

Physics, Isotope, Proton, Astrophysics::High Energy Astrophysical Phenomena, Nuclear Theory, Nuclear structure, FOS: Physical sciences, Nuclear physics, Atomic orbital, Valley of stability, Neutron number, Neutron, Nuclear Experiment (nucl-ex), Spectroscopy, Nuclear Experiment

Abstract

The nuclear potential and resulting shell structure are well established for the valley of stability, however, dramatic modifications to the familiar ordering of single-particle orbitals in rare isotopes with a large imbalance of proton and neutron numbers have been found: new shell gaps emerge and conventional magic numbers are no longer valid. This article outlines some of the recent in-beam gamma-ray spectroscopy measurements at NSCL aimed at shedding light on the evolution of nuclear structure around neutron number N = 28 in neutron-rich Ar and S isotopes., Proceedings for "Perspectives of the Physics of Nuclear Structure" - accepted in Journal of Physics: Conference Series

Published

2018

47. Measurement of key resonances for the Al24(p,γ)Si25 reaction rate using in-beam γ -ray spectroscopy

Author

E. Lunderberg, W. A. Richter, Alexandra Gade, Brandon Elman, Daniel Bazin, D. Weisshaar, S. J. Williams, M. Bowry, B. A. Brown, P. C. Bender, and Brenden Longfellow

Subjects

Physics, Reaction rate, 010308 nuclear & particles physics, 0103 physical sciences, Atomic physics, 010306 general physics, Spectroscopy, 01 natural sciences, Beam (structure)

Abstract

CITATION: Longfellow, B., et al. 2018. Measurement of key resonances for the 24Al( p,γ )25Si reaction rate using in-beam γ -ray spectroscopy. Physical Review C, 97(5):054307, doi:10.1103/PhysRevC.97.054307.

Published

2018

48. Evolution of shell structure in exotic nuclei

Author

Toshio Suzuki, O. Sorlin, Takaharu Otsuka, Yutaka Utsuno, Alexandra Gade, Grand Accélérateur National d'Ions Lourds (GANIL), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

Nuclear Theory, [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], media_common.quotation_subject, Nuclear physics, General Physics and Astronomy, FOS: Physical sciences, 21.30.Fe, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Asymmetry, Nuclear Theory (nucl-th), 0103 physical sciences, Nuclear force, Neutron, Nuclear Experiment (nucl-ex), 010306 general physics, Nuclear Experiment, Quantum, media_common, Physics, 21.10.-k, Isotope, 21.60.-n, 010308 nuclear & particles physics, Observable, Atomic nucleus, Nucleon

Abstract

The atomic nucleus is a quantum many-body system whose constituent nucleons (protons and neutrons) are subject to complex nucleon-nucleon interactions that include spin- and isospin-dependent components. For stable nuclei, already several decades ago, emerging seemingly regular patterns in some observables could be described successfully within a shell-model picture that results in particularly stable nuclei at certain magic fillings of the shells with protons and/or neutrons: N,Z = 8, 20, 28, 50, 82, 126. However, in short-lived, so-called exotic nuclei or rare isotopes, characterized by a large N/Z asymmetry and located far away from the valley of beta stability on the nuclear chart, these magic numbers, viewed through observables, were shown to change. These changes in the regime of exotic nuclei offer an unprecedented view at the roles of the various components of the nuclear force when theoretical descriptions are confronted with experimental data on exotic nuclei where certain effects are enhanced. This article reviews the driving forces behind shell evolution from a theoretical point of view and connects this to experimental signatures., Comment: 69 pages, 70 figures

Published

2018

49. Operation of GRETINA at NSCL

Author

Alexandra Gade and B. M. Sherrill

Published

2017

50. Quadrupole collectivity beyond N=50 in neutron-rich Se and Kr isotopes

Author

E. Lunderberg, W. B. Walters, Kathrin Wimmer, N. Terpstra, K. W. Kemper, Brandon Elman, P. C. Bender, D. Weisshaar, N. Sachmpazidi, Daniel Bazin, Alexandra Gade, S. Lipschutz, M. Bowry, A. Westerberg, S. J. Williams, D. Barofsky, and M. Hjorth-Jensen

Subjects

Physics, Isotope, 010308 nuclear & particles physics, Nuclear Theory, Coulomb excitation, 01 natural sciences, 0103 physical sciences, Quadrupole, Effective field theory, Neutron, Atomic physics, Nuclear Experiment, 010306 general physics, Excitation

Abstract

We report $B(E2;{0}_{1}^{+}\ensuremath{\rightarrow}{2}_{n}^{+})$ strengths for the neutron-rich $^{88,90}\mathrm{Kr}$ and $^{86}\mathrm{Se}$ isotopes from intermediate-energy Coulomb excitation. The electric quadrupole transition strengths to the first ${2}^{+}$ states complete, with considerably improved uncertainties, the evolution of quadrupole collectivity in the Kr and Se isotopes approaching $N=60$, for which $^{90}\mathrm{Kr}$ and $^{86}\mathrm{Se}$ had previously been the most uncertain. We also report significant excitation strength to several higher-lying ${2}^{+}$ states in the krypton isotopes. This fragmentation of $B(E2)$ strength in $^{88,90}\mathrm{Kr}$ confirms shell-model calculations in the $\ensuremath{\pi}(fpg)\text{\ensuremath{-}}\ensuremath{\nu}(sdgh)$ shell with an only minimally tuned shell-model setup that is based on a nucleon-nucleon interaction derived from effective field theory and effective charges adjusted to $^{86}\mathrm{Kr}$.

Published

2017