Your search keyword '"Lipschutz S"' showing total 90 results

1. A technique for the study of (p,n) reactions with unstable isotopes at energies relevant to astrophysics

Author

Gastis, P., Perdikakis, G., Berg, G. P. A., Dombos, A. C., Estrade, A., Falduto, A., Horoi, M., Liddick, S. N., Lipschutz, S., Lyons, S., Montes, F., Palmisano, A., Pereira, J., Randhawa, J. S., Redpath, T., Redshaw, M., Schmitt, J., Sheehan, J. R., Smith, M. K., Tsintari, P., Villari, A. C. C., Wang, K., and Zegers, R. G. T.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

We have developed and tested an experimental technique for the measurement of low-energy (p,n) reactions in inverse kinematics relevant to nuclear astrophysics. The proposed setup is located at the ReA3 facility at the National Superconducting Cyclotron Laboratory. In the current approach, we operate the beam-transport line in ReA3 as a recoil separator while tagging the outgoing neutrons from the (p,n) reactions with the low-energy neutron detector array (LENDA). The developed technique was verified by using the $^{40}$Ar(p,n)$^{40}$K reaction as a probe. The results of the proof-of-principle experiment with the $^{40}$Ar beam show that cross-section measurements within an uncertainty of $\sim$25\% are feasible with count rates up to 7 counts/mb/pnA/s. In this article, we give a detailed description of the experimental setup, and present the analysis method and results from the test experiment. Future plans on using the technique in experiments with the separator for capture reactions (SECAR) that is currently being commissioned are also discussed., Comment: Submitted to NIMA. Revised manuscript after referees' first review

Published

2020

2. Reexamination of $^{6}$Li scattering as a Probe to Investigate the Isoscalar Giant Resonances in Nuclei

Author

Zamora, J. C., Sullivan, C., Zegers, R. G. T., Aoi, N., Batail, L., Bazin, D., Carpenter, M., Carroll, J. J., Deloncle, I., Fang, Y. D., Fujita, H., Garg, U., Gey, G., Guess, C. J., Harakeh, M. N., Hoang, T. H., Hudson, E., Ichige, N., Ideguchi, E., Inoue, A., Isaak, J., Iwamoto, C., Kacir, C., Kobayashi, N., Koike, T., Raju, M. Kumar, Lipschutz, S., Liu, M., von Neumann-Cosel, P., Noji, S., Ong, H. J., Péru, S., Pereira, J., Schmitt, J., Tamii, A., Titus, R., Werner, V., Yamamoto, Y., Zhou, X., and Zhu, S.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

Inelastic ${}^{6}$Li scattering at 100 MeV/u on ${}^{12}$C and ${}^{93}$Nb have been measured with the high-resolution magnetic spectrometer Grand Raiden. The magnetic-rigidity settings of the spectrometer covered excitation energies from 10 to 40 MeV and scattering angles in the range $0^\circ < \theta_{\text{lab.}}< 2^\circ$. The isoscalar giant monopole resonance was selectively excited in the present data. Measurements free of instrumental background and the very favorable resonance-to-continuum ratio of ${}^{6}$Li scattering allowed for precise determination of the $E0$ strengths in ${}^{12}$C and ${}^{93}$Nb. It was found that the monopole strength in ${}^{12}$C exhausts $52 \pm 3^\text{(stat.)} \pm 8 ^\text{(sys.)}$\% of the energy-weighted sum rule (EWSR), which is considerably higher than results from previous $\alpha$-scattering experiments. The monopole strength in ${}^{93}$Nb exhausts $92 \pm 4^\text{(stat.)} \pm 10 ^\text{(sys.)}$\% of the EWSR, and it is consistent with measurements of nuclei with mass number of $A\approx90$. Such comparison indicates that the isoscalar giant monopole resonance distributions in these nuclei are very similar, and no influence due to nuclear structure was observed., Comment: 6 Figures

Published

2020

3. Inverse-kinematics proton scattering from $^{42,44}$S, $^{41,43}$P and the collapse of the $N=28$ major shell closure

Author

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

Subjects

Nuclear Experiment

Abstract

Excited states of the neutron-rich isotopes $^{42,44}$S and $^{41,43}$P have been studied via inverse-kinematics proton scattering from a liquid hydrogen target, using the GRETINA $\gamma$-ray tracking array to extract inelastic scattering cross sections. Deformation lengths of the $2^+_1$ excitations in $^{42,44}$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 $^{41,43}$P$(p,p')$ are used to compare two shell model interactions, SDPF-U and SDPF-MU. As in a recent study of $^{42}$Si, the present results on $^{41,43}$P favor the SDPF-MU interaction., Comment: 11 pages, 14 figures

Published

2019

4. Constraints for stellar electron-capture rates on $^{86}$Kr via the $^{86}$Kr($t$,$^{3}$He$+\gamma$)$^{86}$Br reaction and the implications for core-collapse supernovae

Author

Titus, R., Ney, E. M., Zegers, R. G. T., Bazin, D., Belarge, J., Bender, P. C., Brown, B. A., Campbell, C. M., Elman, B., Engel, J., Gade, A., Gao, B., Kwan, E., Lipschutz, S., Longfellow, B., Lunderberg, E., Mijatovic, T., Noji, S., Pereira, J., Schmitt, J., Sullivan, C., Weisshaar, D., and Zamora, J. C.

Subjects

Nuclear Experiment, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

In the late stages of stellar core-collapse, prior to core bounce, electron captures on medium-heavy nuclei drive deleptonization and simulations require the use of accurate reaction rates. Nuclei with neutron number near $N=50$, just above atomic number $Z=28$, play an important role, but rates used in astrophysical simulations rely primarily on a relatively simple single-state approximation. In order to improve the accuracy of astrophysical simulations, experimental data are needed to test the electron-capture rates and to guide the development of better theoretical models. This work presents the results of the $^{86}$Kr($t$,$^{3}$He+$\gamma$) experiment at the NSCL, from which an upper limit for the Gamow-Teller strength up to an excitation energy in $^{86}$Br of 5 MeV is extracted. The derived upper limit for the electron-capture rate on $^{86}$Kr indicates that the rate estimated through the single-state approximation is too high and that rates based on Gamow-Teller strengths estimated in shell-model and QRPA calculations are more accurate. The QRPA calculations tested in this manner were used for estimating the electron capture rates for 78 isotopes near $N=50$ and above $Z=28$. The impact of using these new electron-capture rates in simulations of supernovae instead of the rates based on the single-state approximation is investigated, indicating a significant reduction in the deleptonization that affects multi-messenger signals, such as the emission of neutrinos and gravitational waves., Comment: 15 pages, 10 figures

Published

2019

5. Single-particle shell strengths near the doubly magic nucleus $^{56}$Ni and the $^{56}$Ni(p,$\gamma$)$^{57}$Cu reaction rate in explosive astrophysical burning

Author

Kahl, D., Woods, P. J., Poxon-Pearson, T., Nunes, F. M., Brown, B. A., Schatz, H., Baumann, T., Bazin, D., Belarge, J. A., Bender, P. C., Elman, B., Estrade, A., Gade, A., Kankainen, A., Lederer-Woods, C., Lipschutz, S., Longfellow, B., Lonsdale, S. -J., Lunderberg, E., Montes, F., Ong, W. J., Perdikakis, G., Pereira, J., Sullivan, C., Taverner, R., Weisshaar, D., and Zegers, R.

Subjects

Nuclear Experiment, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

Angle-integrated cross-section measurements of the $^{56}$Ni(d,n) and (d,p) stripping reactions have been performed to determine the single-particle strengths of low-lying excited states in the mirror nuclei pair $^{57}$Cu-$^{57}$Ni situated adjacent to the doubly magic nucleus $^{56}$Ni. The reactions were studied in inverse kinematics utilizing a beam of radioactive $^{56}$Ni ions in conjunction with the GRETINA $\gamma$-array. Spectroscopic factors are compared with new shell-model calculations using a full $pf$ model space with the GPFX1A Hamiltonian for the isospin-conserving strong interaction plus Coulomb and charge-dependent Hamiltonians. These results were used to set new constraints on the $^{56}$Ni(p,$\gamma$)$^{57}$Cu reaction rate for explosive burning conditions in x-ray bursts, where $^{56}$Ni represents a key waiting point in the astrophysical rp-process., Comment: Final version accepted and published. 5 pages, 2 figures

Published

2019

6. Constraining the Neutron Star Compactness: Extraction of the $^{23}$Al($p,\gamma$) Reaction Rate for the $rp$-Process

Author

Wolf, C., Langer, C., Montes, F., Pereira, J., Ong, W. -J., Poxon-Pearson, T., Ahn, S., Ayoub, S., Baumann, T., Bazin, D., Bender, P. C., Brown, B. A., Browne, J., Crawford, H., Cyburt, R. H., Deleeuw, E., Elman, B., Fiebiger, S., Gade, A., Gastis, P., Lipschutz, S., Longfellow, B., Meisel, Z., Nunes, F. M., Perdikakis, G., Reifarth, R., Richter, W. A., Schatz, H., Schmidt, K., Schmitt, J., Sullivan, C., Titus, R., Weisshaar, D., Woods, P. J., Zamora, J. C., and Zegers, R. G. T.

Subjects

Nuclear Experiment, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

The $^{23}$Al($p,\gamma$)$^{24}$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

7. Experimental Constraint on Stellar Electron-Capture Rates from the ${}^{88}\text{Sr}(t,{}^{3}\text{He}+\gamma){}^{88}\text{Rb}$ reaction at 115 MeV/u

Author

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

Subjects

Nuclear Experiment, Astrophysics - Solar and Stellar Astrophysics

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

8. Near-threshold $\pi^-$ photoproduction on the deuteron

Author

Strandberg, B., Fissum, K. G., Annand, J. R. M., Briscoe, W. J., Brudvik, J., Cividini, F., Clark, L., Downie, E. J., England, K., Feldman, G., Glazier, D. I., Hamilton, K., Hansen, K., Isaksson, L., Jebali, R. Al, Kovash, M. A., Kudryavtsev, A. E., Lensky, V., Lipschutz, S., Lundin, M., Meshkian, M., Middleton, D. G., Myers, L. S., O'Donnell, D., O'Rielly, G. V., Oussena, B., Preston, M. F., Schröder, B., Seitz, B., Strakovsky, I. I., Taragin, M., and Tarasov, V. E.

Subjects

Nuclear Experiment

Abstract

The first experimental investigation of the near-threshold cross section for incoherent $\pi^-$ photoproduction on the deuteron $\gamma$ d -> $\pi^-$ pp is presented. The experimental technique involved detection of the ~131 MeV gamma ray resulting from the radiative capture of photoproduced $\pi^-$ in the target. The total cross section has been measured using an unpolarized tagged-photon beam, a liquid-deuterium target, and three very large NaI(Tl) spectrometers. The data are compared to theoretical models that give insight into the elementary reaction $\gamma$ n -> $\pi^-$ p and pion-nucleon and nucleon-nucleon final-state interactions., Comment: 8 pages, 6 figures, to be submitted to Physical Review C

Published

2018

9. Compton Scattering from the Deuteron above Pion-Production Threshold

Author

Strandberg, B., Annand, J. R. M., Briscoe, W., Brudvik, J., Cividini, F., Clark, L., Downie, E. J., England, K., Feldman, G., Fissum, K. G., Glazier, D. I., Hamilton, K., Hansen, K., Isaksson, L., Jebali, R. Al, Kovash, M. A., Lipschutz, S., Lundin, M., Meshkian, M., Middleton, D. G., Myers, L. S., O'Donnell, D., O'Rielly, G., Oussena, B., Preston, M. F., Schröder, B., Seitz, B., Strakovsky, I., and Taragin, M.

Subjects

Nuclear Experiment

Abstract

The electromagnetic polarizabilities of the nucleon are fundamental nucleon-structure observables that characterize its response to external electromagnetic fields. The neutron polarizabilities can be accessed from Compton-scattering data on light nuclear targets. Recent measurements of the differential cross section for Compton scattering on the deuteron below the pion-production threshold have decreased the uncertainties in the neutron polarizabilities, yet the proton polarizabilities remain known substantially more accurately. As the sensitivity of the cross section to the polarizabilities increases with incident photon energy, measurements above the pion threshold may offer a way for an improved determination of the neutron polarizabilities. In this article, the first measurement of the cross section for Compton scattering on the deuteron above the pion-production threshold is presented., Comment: 6 pages, 4 figures, to be submitted to Physical Review C Rapid Communications

Published

2018

10. Constraints for stellar electron-capture rates on Kr 86 via the Kr 86 (t, He 3 +γ) Br 86 reaction and the implications for core-collapse supernovae

Author

Titus, R, Ney, EM, Zegers, RGT, Bazin, D, Belarge, J, Bender, PC, Brown, BA, Campbell, CM, Elman, B, Engel, J, Gade, A, Gao, B, Kwan, E, Lipschutz, S, Longfellow, B, Lunderberg, E, Mijatović, T, Noji, S, Pereira, J, Schmitt, J, Sullivan, C, Weisshaar, D, and Zamora, JC

Subjects

nucl-ex, astro-ph.HE, astro-ph.SR, nucl-th

Abstract

Background: In the late stages of stellar core collapse just prior to core bounce, electron captures on medium-heavy nuclei drive deleptonization. Therefore, simulations require the use of accurate reaction rates. Nuclei with neutron number near N=50 above atomic number Z=28 play an important role. Rates presently used in astrophysical simulations rely primarily on a relatively simple single-state approximation. In order to improve the accuracy of the astrophysical simulations, experimental data are needed to test the electron-capture rates and to guide the development of better theoretical models and astrophysical simulations. Purpose: The purpose of the present work was to measure the Gamow-Teller transition strength from Kr86 to Br86, to derive the stellar electron-capture rates based on the extracted strengths, and to compare the derived rates with rates based on shell-model and quasiparticle random-phase approximation (QRPA) Gamow-Teller strengths calculations, as well as the single-state approximation. An additional purpose was to test the impact of using improved electron-capture rates on the late evolution of core-collapse supernovae. Method: The Gamow-Teller strengths from Kr86 were extracted from the Kr86(t,He3+γ) charge-exchange reaction at 115MeV/u. The electron-capture rates were calculated as a function of stellar density and temperature. Besides the case of Kr86, the electron-capture rates based on the QRPA calculations were calculated for 78 additional isotopes near N=50 above Z=28. The impact of using these rates instead of those based on the single-state approximation is studied in a spherically symmetrical simulation of core collapse just prior to bounce. Results: The derived electron-capture rates on Kr86 from the experimental Gamow-Teller strength distribution are much smaller than the rates estimated based on the single-state approximation. Rates based on Gamow-Teller strengths estimated in shell-model and QRPA calculations are more accurate. The core-collapse supernova simulation with electron-capture rates based on the QRPA calculations indicate a significant reduction in the deleptonization during the collapse phase. Conclusions: It is important to utilize microscopic theoretical models that are tested by experimental data to constrain and estimate Gamow-Teller strengths and derived electron-capture rates for nuclei near N=50 that are inputs for astrophysical simulations of core-collapse supernovae and their multimessenger signals, such as the emission of neutrinos and gravitational waves.

Published

2019

11. Constraints for stellar electron-capture rates on Kr86 via the Kr86(t,He3+γ)Br86 reaction and the implications for core-collapse supernovae

Author

Titus, R, Ney, EM, Zegers, RGT, Bazin, D, Belarge, J, Bender, PC, Brown, BA, Campbell, CM, Elman, B, Engel, J, Gade, A, Gao, B, Kwan, E, Lipschutz, S, Longfellow, B, Lunderberg, E, Mijatović, T, Noji, S, Pereira, J, Schmitt, J, Sullivan, C, Weisshaar, D, and Zamora, JC

Subjects

Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, nucl-ex, astro-ph.HE, astro-ph.SR, nucl-th, Nuclear and plasma physics

Abstract

Background: In the late stages of stellar core collapse just prior to core bounce, electron captures on medium-heavy nuclei drive deleptonization. Therefore, simulations require the use of accurate reaction rates. Nuclei with neutron number near N=50 above atomic number Z=28 play an important role. Rates presently used in astrophysical simulations rely primarily on a relatively simple single-state approximation. In order to improve the accuracy of the astrophysical simulations, experimental data are needed to test the electron-capture rates and to guide the development of better theoretical models and astrophysical simulations. Purpose: The purpose of the present work was to measure the Gamow-Teller transition strength from Kr86 to Br86, to derive the stellar electron-capture rates based on the extracted strengths, and to compare the derived rates with rates based on shell-model and quasiparticle random-phase approximation (QRPA) Gamow-Teller strengths calculations, as well as the single-state approximation. An additional purpose was to test the impact of using improved electron-capture rates on the late evolution of core-collapse supernovae. Method: The Gamow-Teller strengths from Kr86 were extracted from the Kr86(t,He3+γ) charge-exchange reaction at 115MeV/u. The electron-capture rates were calculated as a function of stellar density and temperature. Besides the case of Kr86, the electron-capture rates based on the QRPA calculations were calculated for 78 additional isotopes near N=50 above Z=28. The impact of using these rates instead of those based on the single-state approximation is studied in a spherically symmetrical simulation of core collapse just prior to bounce. Results: The derived electron-capture rates on Kr86 from the experimental Gamow-Teller strength distribution are much smaller than the rates estimated based on the single-state approximation. Rates based on Gamow-Teller strengths estimated in shell-model and QRPA calculations are more accurate. The core-collapse supernova simulation with electron-capture rates based on the QRPA calculations indicate a significant reduction in the deleptonization during the collapse phase. Conclusions: It is important to utilize microscopic theoretical models that are tested by experimental data to constrain and estimate Gamow-Teller strengths and derived electron-capture rates for nuclei near N=50 that are inputs for astrophysical simulations of core-collapse supernovae and their multimessenger signals, such as the emission of neutrinos and gravitational waves.

Published

2019

12. Digital Data Acquisition For the Low Energy Neutron Detector Array (LENDA)

Author

Lipschutz, S., Zegers, R. G. T., Hill, J., Liddick, S. N., Noji, S., Prokop, C. J., Scott, M., Solt, M., Sullivan, C., and Tompkins, J.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

A digital data acquisition system (DDAS) has been implemented for the Low Energy Neutron Detector Array (LENDA). LENDA is an array of 24 BC-408 plastic-scintillator bars designed to measure low-energy neutrons with kinetic energies in the range of 100 keV to 10 MeV from (p,n)-type charge-exchange reactions. Compared to the previous data acquisition (DAQ) system for LENDA, DDAS offers the possibility to lower the neutron detection threshold, increase the overall neutron-detection efficiency, decrease the dead time of the system, and allow for easy expansion of the array. The system utilized in this work was XIA's Digital Gamma Finder Pixie-16 250 MHz digitizers. A detector-limited timing resolution of 400 ps was achieved for a single LENDA bar. Using DDAS, the neutron detection threshold of the system was reduced compared to the previous analog system, now reaching below 100 keV. The new DAQ system was successfully used in a recent charge-exchange experiment using the $^{16}$C(p,n) reaction at the National Superconducting Cyclotron Laboratory (NSCL)., Comment: Typo fixed in Abstract

Published

2016

13. Observation of the Isovector Giant Monopole Resonance via the Si28(Be10,B*10[1.74 MeV]) Reaction at 100 AMeV

Author

Scott, M, Zegers, RGT, Almus, R, Austin, Sam M, Bazin, D, Brown, BA, Campbell, C, Gade, A, Bowry, M, Galès, S, Garg, U, Harakeh, MN, Kwan, E, Langer, C, Loelius, C, Lipschutz, S, Litvinova, E, Lunderberg, E, Morse, C, Noji, S, Perdikakis, G, Redpath, T, Robin, C, Sakai, H, Sasamoto, Y, Sasano, M, Sullivan, C, Tostevin, JA, Uesaka, T, and Weisshaar, D

Subjects

Mathematical Sciences, Physical Sciences, Engineering, General Physics

Abstract

The (^{10}Be,^{10}B^{*}[1.74  MeV]) charge-exchange reaction at 100  AMeV is presented as a new probe for isolating the isovector (ΔT=1) nonspin-transfer (ΔS=0) response of nuclei, with ^{28}Si being the first nucleus studied. By using a secondary ^{10}Be beam produced by fast fragmentation of ^{18}O nuclei at the NSCL Coupled Cyclotron Facility, applying the dispersion-matching technique with the S800 magnetic spectrometer to determine the excitation energy in ^{28}Al, and performing high-resolution γ-ray tracking with the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to identify the 1022-keV γ ray associated with the decay from the 1.74-MeV T=1 isobaric analog state in ^{10}B, a ΔS=0 excitation-energy spectrum in ^{28}Al was extracted. Monopole and dipole contributions were determined through a multipole-decomposition analysis, and the isovector giant dipole resonance and isovector giant monopole resonance (IVGMR) were identified. The results show that this probe is a powerful tool for studying the elusive IVGMR, which is of interest for performing stringent tests of modern density functional theories at high excitation energies and for constraining the bulk properties of nuclei and nuclear matter. The extracted distributions were compared with theoretical calculations based on the normal-modes formalism and the proton-neutron relativistic time-blocking approximation. Calculated cross sections based on these strengths underestimate the data by about a factor of 2, which likely indicates deficiencies in the reaction calculations based on the distorted wave Born approximation.

Published

2017

14. Observation of the Isovector Giant Monopole Resonance via the ^{28}Si(^{10}Be,^{10}B^{*}[1.74  MeV]) Reaction at 100  AMeV.

Author

Scott, M, Zegers, RGT, Almus, R, Austin, Sam M, Bazin, D, Brown, BA, Campbell, C, Gade, A, Bowry, M, Galès, S, Garg, U, Harakeh, MN, Kwan, E, Langer, C, Loelius, C, Lipschutz, S, Litvinova, E, Lunderberg, E, Morse, C, Noji, S, Perdikakis, G, Redpath, T, Robin, C, Sakai, H, Sasamoto, Y, Sasano, M, Sullivan, C, Tostevin, JA, Uesaka, T, and Weisshaar, D

Subjects

General Physics, Physical Sciences

Abstract

The (^{10}Be,^{10}B^{*}[1.74  MeV]) charge-exchange reaction at 100  AMeV is presented as a new probe for isolating the isovector (ΔT=1) nonspin-transfer (ΔS=0) response of nuclei, with ^{28}Si being the first nucleus studied. By using a secondary ^{10}Be beam produced by fast fragmentation of ^{18}O nuclei at the NSCL Coupled Cyclotron Facility, applying the dispersion-matching technique with the S800 magnetic spectrometer to determine the excitation energy in ^{28}Al, and performing high-resolution γ-ray tracking with the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to identify the 1022-keV γ ray associated with the decay from the 1.74-MeV T=1 isobaric analog state in ^{10}B, a ΔS=0 excitation-energy spectrum in ^{28}Al was extracted. Monopole and dipole contributions were determined through a multipole-decomposition analysis, and the isovector giant dipole resonance and isovector giant monopole resonance (IVGMR) were identified. The results show that this probe is a powerful tool for studying the elusive IVGMR, which is of interest for performing stringent tests of modern density functional theories at high excitation energies and for constraining the bulk properties of nuclei and nuclear matter. The extracted distributions were compared with theoretical calculations based on the normal-modes formalism and the proton-neutron relativistic time-blocking approximation. Calculated cross sections based on these strengths underestimate the data by about a factor of 2, which likely indicates deficiencies in the reaction calculations based on the distorted wave Born approximation.

Published

2017

15. A technique for the study of (p,n) reactions with unstable isotopes at energies relevant to astrophysics

Author

Gastis, P., Perdikakis, G., Berg, G.P.A., Dombos, A.C., Estrade, A., Falduto, A., Horoi, M., Liddick, S.N., Lipschutz, S., Lyons, S., Montes, F., Palmisano, A., Pereira, J., Randhawa, J.S., Redpath, T., Redshaw, M., Schmitt, J., Sheehan, J.R., Smith, M.K., Tsintari, P., Villari, A.C.C., Wang, K., and Zegers, R.G.T.

Published

2021

16. Investigation of the isoscalar response of 24Mg to 6Li scattering

Author

Zamora, J. C., Sullivan, C., Zegers, R. G.T., Aoi, N., Batail, L., Bazin, D., Carpenter, M., Carroll, J. J., Fang, Y. D., Fujita, H., Garg, U., Gey, G., Guess, C. J., Harakeh, M. N., Hoang, T. H., Hudson, E., Ichige, N., Ideguchi, E., Inoue, A., Isaak, J., Iwamoto, C., Kacir, C., Kobayashi, N., Koike, T., Kumar Raju, M., Lipschutz, S., Liu, M., Von Neumann-Cosel, P., Noji, S., Ong, H. J., Péru, S., Pereira, J., Schmitt, J., Tamii, A., Titus, R., Werner, V., Yamamoto, Y., Zhou, X., Zhu, S., and Research unit Nuclear & Hadron Physics

Abstract

Background: Mg24 is a strongly deformed nucleus in the ground state. Deformation effects can be observed in the structure of the isoscalar giant monopole and quadrupole resonances. Mg24 is also a nucleus that is well known to present different types of cluster-oscillation modes. Both giant resonances and cluster states are strongly populated by isoscalar transitions. Purpose: To extract the E0, E1, and E2 transition strengths via Li6 scattering. The Li6 probe is a powerful tool for investigating the isoscalar nuclear response with a very favorable ratio of resonance-to-continuum background. Method: Double-differential cross sections of Li6 inelastic scattering, at the beam energy of 100 MeV/u, were measured in the excitation-energy range 10-40MeV and scattering angles 0-3∘. A multipole-decomposition analysis was performed for extracting the isoscalar E0, E1, and E2 strength distributions. Results: The extracted multipole strengths were compared with predictions from consistent quasiparticle random phase approximation calculations. The theoretical predictions are in fair agreement with the experimental data. The E0 strength was also compared with results from antisymmetrized molecular dynamics calculations found in the literature. A few peaks in the experimental data might be associated with clustering in Mg24. Conclusions: Ground-state deformation effects were observed in the isoscalar giant monopole resonance (ISGMR) and isoscalar giant quadrupole resonance (ISGQR) distributions. The ISGMR strength is split in two peaks around 19 and 28 MeV. The ISGQR exhibits a pronounced peak at 20 MeV with a broadening at the low-energy region, similar to predictions from microscopic calculations. Signatures of excitation of cluster states were observed in the E0 response. Further studies including particle-decay measurements will be required to confirm the nature of the observed peaks.

Published

2021

17. Investigation of the isoscalar response of $^{24}\mathrm{Mg}$ to $^{6}\mathrm{Li}$ scattering

Author

Zamora, J.C., Sullivan, C., Zegers, R.G.T., Aoi, N., Batail, L., Bazin, D., Carpenter, M., Carroll, J.J., Fang, Y.D., Fujita, H., Garg, U., Gey, G., Guess, C.J., Harakeh, M.N., Hoang, T.H., Hudson, E., Ichige, N., Ideguchi, E., Inoue, A., Isaak, J., Iwamoto, C., Kacir, C., Kobayashi, N., Koike, T., Kumar Raju, M., Lipschutz, S., Liu, M., Von Neumann-Cosel, P., Noji, S., Ong, H.J., Péru, S., Pereira, J., Schmitt, J., Tamii, A., Titus, R., Werner, V., Yamamoto, Y., Zhou, X., Zhu, S., Direction des Applications Militaires (DAM), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)

Subjects

[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]

Abstract

International audience; Background: Mg24 is a strongly deformed nucleus in the ground state. Deformation effects can be observed in the structure of the isoscalar giant monopole and quadrupole resonances. Mg24 is also a nucleus that is well known to present different types of cluster-oscillation modes. Both giant resonances and cluster states are strongly populated by isoscalar transitions.Purpose: To extract the E0, E1, and E2 transition strengths via Li6 scattering. The Li6 probe is a powerful tool for investigating the isoscalar nuclear response with a very favorable ratio of resonance-to-continuum background.Method: Double-differential cross sections of Li6 inelastic scattering, at the beam energy of 100 MeV/u, were measured in the excitation-energy range 10–40MeV and scattering angles 0−3∘. A multipole-decomposition analysis was performed for extracting the isoscalar E0, E1, and E2 strength distributions.Results: The extracted multipole strengths were compared with predictions from consistent quasiparticle random phase approximation calculations. The theoretical predictions are in fair agreement with the experimental data. The E0 strength was also compared with results from antisymmetrized molecular dynamics calculations found in the literature. A few peaks in the experimental data might be associated with clustering in Mg24.Conclusions: Ground-state deformation effects were observed in the isoscalar giant monopole resonance (ISGMR) and isoscalar giant quadrupole resonance (ISGQR) distributions. The ISGMR strength is split in two peaks around 19 and 28 MeV. The ISGQR exhibits a pronounced peak at 20 MeV with a broadening at the low-energy region, similar to predictions from microscopic calculations. Signatures of excitation of cluster states were observed in the E0 response. Further studies including particle-decay measurements will be required to confirm the nature of the observed peaks.

Published

2021

18. Reexamination of isoscalar giant resonances in C 12 and Nb 93 through Li 6 scattering

Author

Zamora, J. C., Sullivan, C., Zegers, R. G.T., Aoi, N., Batail, L., Bazin, D., Carpenter, M., Carroll, J. J., Deloncle, I., Fang, Y. D., Fujita, H., Garg, U., Gey, G., Guess, C. J., Harakeh, M. N., Hoang, T. H., Hudson, E., Ichige, N., Ideguchi, E., Inoue, A., Isaak, J., Iwamoto, C., Kacir, C., Kobayashi, N., Koike, T., Kumar Raju, M., Lipschutz, S., Liu, M., Von Neumann-Cosel, P., Noji, S., Ong, H. J., Péru, S., Pereira, J., Schmitt, J., Tamii, A., Titus, R., Werner, V., Yamamoto, Y., Zhou, X., Zhu, S., and Research unit Nuclear & Hadron Physics

Abstract

Inelastic Li6 scattering at 100 MeV/u on C12 and Nb93 has been measured with the high-resolution magnetic spectrometer Grand Raiden. The magnetic-rigidity settings of the spectrometer covered excitation energies from 10 to 40 MeV and scattering angles in the range 0°

Published

2020

19. Reexamination of isoscalar giant resonances in $^{12}$C and $^{93}$Nb through $^6$Li scattering

Author

Zamora, J.C., Sullivan, C., Zegers, R.G.T., Aoi, N., Batail, L., Bazin, D., Carpenter, M., Carroll, J.J., Deloncle, I., Fang, Y.D., Fujita, H., Garg, U., Gey, G., Guess, C.J., Harakeh, M.N., Hoang, T.H., Hudson, E., Ichige, N., Ideguchi, E., Inoue, A., Isaak, J., Iwamoto, C., Kacir, C., Kobayashi, N., Koike, T., Kumar Raju, M., Lipschutz, S., Liu, M., Von Neumann-Cosel, P., Noji, S., Ong, H.J., Péru, S., Pereira, J., Schmitt, J., Tamii, A., Titus, R., Werner, V., Yamamoto, Y., Zhou, X., Zhu, S., Direction des Applications Militaires (DAM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), and Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects

[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], Nuclear Reactions, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Nuclear Experiment

Abstract

International audience; Inelastic Li6 scattering at 100 MeV/u on C12 and Nb93 has been measured with the high-resolution magnetic spectrometer Grand Raiden. The magnetic-rigidity settings of the spectrometer covered excitation energies from 10 to 40 MeV and scattering angles in the range 0∘

Published

2020

20. Reexamination of isoscalar giant resonances in C12 and Nb93 through Li6 scattering

Author

Zamora, J. C., primary, Sullivan, C., additional, Zegers, R. G. T., additional, Aoi, N., additional, Batail, L., additional, Bazin, D., additional, Carpenter, M., additional, Carroll, J. J., additional, Deloncle, I., additional, Fang, Y. D., additional, Fujita, H., additional, Garg, U., additional, Gey, G., additional, Guess, C. J., additional, Harakeh, M. N., additional, Hoang, T. H., additional, Hudson, E., additional, Ichige, N., additional, Ideguchi, E., additional, Inoue, A., additional, Isaak, J., additional, Iwamoto, C., additional, Kacir, C., additional, Kobayashi, N., additional, Koike, T., additional, Kumar Raju, M., additional, Lipschutz, S., additional, Liu, M., additional, von Neumann-Cosel, P., additional, Noji, S., additional, Ong, H. J., additional, Péru, S., additional, Pereira, J., additional, Schmitt, J., additional, Tamii, A., additional, Titus, R., additional, Werner, V., additional, Yamamoto, Y., additional, Zhou, X., additional, and Zhu, S., additional

Published

2020

21. 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

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

Published

2020

22. Gamow-Teller transitions to Zr93 via the Nb93(t,He3+γ ) reaction at 115 MeV/u and its application to the stellar electron-capture rates

Author

Gao, B., primary, Zegers, R. G. T., additional, Zamora, J. C., additional, Bazin, D., additional, Brown, B. A., additional, Bender, P., additional, Crawford, H. L., additional, Engel, J., additional, Falduto, A., additional, Gade, A., additional, Gastis, P., additional, Ginter, T., additional, Guess, C. J., additional, Lipschutz, S., additional, Macchiavelli, A. O., additional, Miki, K., additional, Ney, E. M., additional, Longfellow, B., additional, Noji, S., additional, Pereira, J., additional, Schmitt, J., additional, Sullivan, C., additional, Titus, R., additional, and Weisshaar, D., additional

Published

2020

23. Single-particle shell strengths near the doubly magic nucleus Ni and the Ni( , ) Cu reaction rate in explosive astrophysical burning

Author

Kahl, D., Woods, P.J., Poxon-Pearson, T., Nunes, F.M., Brown, B.A., Schatz, H., Baumann, T., Bazin, D., Belarge, J.A., Bender, P.C., Elman, B., Estrade, A., Gade, A., Kankainen, A., Lederer-Woods, C., Lipschutz, S., Longfellow, B., Lonsdale, S.J., Lunderberg, E., Montes, F., Ong, W.J., Perdikakis, G., Pereira, J., Sullivan, C., Taverner, R., Weisshaar, D., and Zegers, R.

Abstract

Angle-integrated cross-section measurements of the $^{56}$Ni(d,n) and (d,p) stripping reactions have been performed to determine the single-particle strengths of low-lying excited states in the mirror nuclei pair $^{57}$Cu−$^{57}$Ni situated adjacent to the doubly magic nucleus $^{56}$Ni. The reactions were studied in inverse kinematics utilizing a beam of radioactive $^{56}$Ni ions in conjunction with the GRETINA γ-array. Spectroscopic factors are compared with new shell-model calculations using a full pf model space with the GPFX1A Hamiltonian for the isospin-conserving strong interaction plus Coulomb and charge-dependent Hamiltonians. These results were used to set new constraints on the $^{56}$Ni(p,γ)$^{57}$Cu reaction rate for explosive burning conditions in x-ray bursts, where $^{56}$Ni represents a key waiting point in the astrophysical rp-process.

Published

2019

24. The (Li-6,Li-6*[3.56 MeV]) reaction at 100 MeV/u as a probe of Gamow-Teller transition strengths in the inelastic scattering channel

Author

Sullivan, C., Zegers, R. G. T., Noji, S., Austin, Sam M., Schmitt, J., Aoi, N., Bazin, D., Carpenter, M., Carroll, J. J., Fujita, H., Garg, U., Gey, G., Guess, C. J., Hoang, T. H., Harakeh, M. N., Hudson, E., Ichige, N., Ideguchi, E., Inoue, A., Isaak, J., Iwamoto, C., Kacir, C., Koike, T., Kobayashi, N., Lipschutz, S., Liu, M., von Neumann-Cosel, P., Ong, H. J., Pereira, J., Raju, M. Kumar, Tamii, A., Titus, R., Werner, K., Yamamoto, Y., Fang, Y. D., Zamora, J. C., Zhu, S., Zhou, X., and Research unit Nuclear & Hadron Physics

Subjects

EXCITATIONS, HE-6 REACTION, NUCLEI, Nuclear Theory, R-PROCESS, NEUTRINO SCATTERING, SPIN PROBES, LI-6, Nuclear Experiment, INTERMEDIATE ENERGIES, DECAY, SUPERNOVA

Abstract

Background: Inelastic neutrino-nucleus scattering is important for understanding core-collapse supernovae and the detection of emitted neutrinos from such events in earth-based detectors. Direct measurement of the cross sections is difficult and has only been performed on a few nuclei. It is, therefore, important to develop indirect techniques from which the inelastic neutrino-nucleus scattering cross sections can be determined. Purpose: This paper presents a development of the (Li-6,Li-6*[T = 1, T-z = 0, 0(+), 3.56 MeV]) reaction at 100 MeV/u as a probe for isolating the isovector spin-transfer response in the inelastic channel (Delta S = 1, Delta T = 1, Delta T-z = 0) from which the Gamow-Teller transition strengths from nuclei of relevance for inelastic neutrino-nucleus scattering cross sections can be extracted. Method: By measuring the Li-6 ejectile in a magnetic spectrometer and selecting events in which the 3.56 MeV gamma ray from the decay of the Li-6*[3.56 MeV] state is detected, the isovector spin-transfer selectivity is obtained. High-purity germanium clover detectors served to detect the gamma rays. Doppler reconstruction was used to determine the gamma energy in the rest frame of Li-6. From the Li-6 and 3.56 MeV gamma-momentum vectors the excitation energy of the residual nucleus was determined. Results: In the study of the C-12(Li-6,Li-6*[3.56 MeV]) reaction, the isovector spin-transfer excitation-energy spectrum in the inelastic channel was successfully measured. The strong Gamow-Teller state in C-12 at 15.1 MeV was observed. Comparisons with the analog C-12(Li-6,He-6) reaction validate the method of extracting the Gamow-Teller strength. In measurements of the Mg-24, Nb-93(Li-6,Li-6*[3.56 MeV]) reactions, the 3.56 MeV gamma peak could not be isolated from the strong background in the gamma spectrum from the decay of the isoscalar excitations. It is argued that by using a gamma-ray tracking array instead of a clover array, it is feasible to extend the mass range over which the (Li-6,Li-6*) reaction can be used for extracting the isovector spin-transfer response up to mass numbers of similar to 25 and perhaps higher. Conclusions: It is demonstrated that the (Li-6,Li-6*[3.56 MeV]) reaction probe can be used to isolate the inelastic isovector spin-transfer response in nuclei. Application to nuclei with mass numbers of about 25 or more, however, will require a more efficient gamma-ray array with a better tracking capability.

Published

2018

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

Author

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

Published

2019

26. Single-particle shell strengths near the doubly magic nucleus 56Ni and the 56Ni(p,γ)57Cu reaction rate in explosive astrophysical burning

Author

Kahl, D., primary, Woods, P.J., additional, Poxon-Pearson, T., additional, Nunes, F.M., additional, Brown, B.A., additional, Schatz, H., additional, Baumann, T., additional, Bazin, D., additional, Belarge, J.A., additional, Bender, P.C., additional, Elman, B., additional, Estrade, A., additional, Gade, A., additional, Kankainen, A., additional, Lederer-Woods, C., additional, Lipschutz, S., additional, Longfellow, B., additional, Lonsdale, S.-J., additional, Lunderberg, E., additional, Montes, F., additional, Ong, W.J., additional, Perdikakis, G., additional, Pereira, J., additional, Sullivan, C., additional, Taverner, R., additional, Weisshaar, D., additional, and Zegers, R., additional

Published

2019

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

Author

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

Published

2019

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

Author

Wolf, C., primary, Langer, C., additional, Montes, F., additional, Pereira, J., additional, Ong, W.-J., additional, Poxon-Pearson, T., additional, Ahn, S., additional, Ayoub, S., additional, Baumann, T., additional, Bazin, D., additional, Bender, P. C., additional, Brown, B. A., additional, Browne, J., additional, Crawford, H., additional, Cyburt, R. H., additional, Deleeuw, E., additional, Elman, B., additional, Fiebiger, S., additional, Gade, A., additional, Gastis, P., additional, Lipschutz, S., additional, Longfellow, B., additional, Meisel, Z., additional, Nunes, F. M., additional, Perdikakis, G., additional, Reifarth, R., additional, Richter, W. A., additional, Schatz, H., additional, Schmidt, K., additional, Schmitt, J., additional, Sullivan, C., additional, Titus, R., additional, Weisshaar, D., additional, Woods, P. J., additional, Zamora, J. C., additional, and Zegers, R. G. T., additional

Published

2019

29. Isovector excitations in 100Nb and their decays by neutron emission studied via the [formula omitted] reaction at 115 MeV/u

Author

Miki, K., Zegers, R.G.T., Austin, Sam M., Bazin, D., Brown, B.A., Dombos, A.C., Grzywacz, R.K., Harakeh, M.N., Kwan, E., Liddick, S.N., Lipschutz, S., Litvinova, E., Madurga, M., Mustonen, M.T., Ong, W.J., Paulauskas, S.V., Perdikakis, G., Pereira, J., Peters, W.A., Robin, C., Scott, M., Spyrou, A., Sullivan, C., and Titus, R.

Published

2017

30. Isovector excitations in Nb-100 and their decays by neutron emission studied via the Mo-100(t, He-3 + n) reaction at 115 MeV/u

Author

Miki, K., Zegers, R. G. T., Austin, Sam M., Bazin, D., Brown, B. A., Dombos, A. C., Grzywacz, R. K., Harakeh, M. N., Kwan, E., Liddick, S. N., Lipschutz, S., Litvinova, E., Madurga, M., Mustonen, M. T., Ong, W. J., Paulauskas, S. V., Perdikakis, G., Pereira, J., Peters, W. A., Robin, C., Scott, M., Spyrou, A., Sullivan, C., Titus, R., and Research unit Nuclear & Hadron Physics

Subjects

NUCLEI, Nuclear Theory, SEMIMICROSCOPIC DESCRIPTION, VERSATILE ARRAY, Charge-exchange reaction, RELAXATION, Spin-isospin excitations, Neutron decay, Missing mass spectroscopy, SCATTERING, GAMOW-TELLER RESONANCE, PB-208, Nuclear Experiment, LOW-ENERGY VANDLE, INTERMEDIATE ENERGIES, GIANT MONOPOLE

Abstract

Spin-isospin excitations in Nb-100 were studied via the Mo-100(t,He-3) charge-exchange reaction at 115 MeV/u with the goal to constrain theoretical models used to describe the isovector spin response of nuclei. The experiment was performed with a secondary beam of tritons, and He-3 particles were analyzed in the 5800 magnetic spectrometer. Decay by neutron emission from excited states in Nb-100 was observed by using plastic and liquid scintillator arrays. Differential cross sections were analyzed and monopole excitations were revealed by using a multipole decomposition analysis. The Gamow-Teller transition strength observed at low excitation energies, which is important for estimating the electron capture rate in astrophysical scenarios, was strongly fragmented and reduced compared to single-particle and spherical mean-field models. The consideration of deformation in the theoretical estimates was found to be important to better describe the fragmentation and strengths. A strong excitation of the isovector spin giant monopole resonance was observed, and well reproduced by the mean-field models. Its presence makes the extraction of Gamow-Teller strengths at high excitation energies difficult. The branches for statistical and direct decay by neutron emission were identified in the spectra. The upper limit for the branching ratio by direct decay (integrated over all observed excitations) was determined to be 20 +/- 6%. Even though the statistical uncertainties in the neutron-coincident data, were too large to perform detailed studies of the decay by neutron emission from individual states and resonances, the experiment demonstrates the feasibility of the method. (C) 2017 The Author(s). Published by Elsevier B.V.

Published

2017

31. Observation of the Isovector Giant Monopole Resonance via the Si-28 (Be-10, B-10* [1.74 MeV]) Reaction at 100 AMeV

Author

Scott, M., Zegers, R. G. T., Almus, R., Austin, Sam M., Bazin, D., Brown, B. A., Campbell, C., Gade, A., Bowry, M., Gales, S., Garg, U., Harakeh, M. N., Kwan, E., Langer, C., Loelius, C., Lipschutz, S., Litvinova, E., Lunderberg, E., Morse, C., Noji, S., Perdikakis, G., Redpath, T., Robin, C., Sakai, H., Sasamoto, Y., Sasano, M., Sullivan, C., Tostevin, J. A., Uesaka, T., Weisshaar, D., and Research unit Nuclear & Hadron Physics

Subjects

SPIN, ISOSPIN EXCITATIONS, Nuclear Theory, STRENGTH, SCATTERING, NUCLEAR, BETA-DECAY, Nuclear Experiment, PION CHARGE-EXCHANGE, INTERMEDIATE ENERGIES, STATE, CROSS-SECTIONS

Abstract

The (Be-10; B-10* [1.74 MeV]) charge-exchange reaction at 100 AMeV is presented as a new probe for isolating the isovector (Delta T = 1) nonspin-transfer (Delta S = 0) response of nuclei, with Si-28 being the first nucleus studied. By using a secondary Be-10 beam produced by fast fragmentation of O-18 nuclei at the NSCL Coupled Cyclotron Facility, applying the dispersion-matching technique with the S800 magnetic spectrometer to determine the excitation energy in Al-28, and performing high-resolution gamma-ray tracking with the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to identify the 1022-keV gamma ray associated with the decay from the 1.74-MeV T = 1 isobaric analog state in B-10, a Delta S = 0 excitation-energy spectrum in Al-28 was extracted. Monopole and dipole contributions were determined through a multipole-decomposition analysis, and the isovector giant dipole resonance and isovector giant monopole resonance (IVGMR) were identified. The results show that this probe is a powerful tool for studying the elusive IVGMR, which is of interest for performing stringent tests of modern density functional theories at high excitation energies and for constraining the bulk properties of nuclei and nuclear matter. The extracted distributions were compared with theoretical calculations based on the normal-modes formalism and the proton-neutron relativistic time-blocking approximation. Calculated cross sections based on these strengths underestimate the data by about a factor of 2, which likely indicates deficiencies in the reaction calculations based on the distorted wave Born approximation.

Published

2017

32. Isovector excitations in 100 Nb and their decays by neutron emission studied via the Mo100(t,He3+n) reaction at 115 MeV/ u

Author

Miki, K., Zegers, R.G.T., Austin, Sam M., Bazin, D., Brown, B.A., Dombos, A.C., Grzywacz, R.K., Harakeh, M.N., Kwan, E., Liddick, S.N., Lipschutz, S., Litvinova, E., Madurga, M., Mustonen, M.T., Ong, W.J., Paulauskas, S.V., Perdikakis, G., Pereira, J., Peters, W.A., Robin, C., Scott, M., Spyrou, A., Sullivan, C., and Titus, R.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

Spin–isospin excitations in Nb100 were studied via the Mo100(t,He3) charge-exchange reaction at 115 MeV/ u with the goal to constrain theoretical models used to describe the isovector spin response of nuclei. The experiment was performed with a secondary beam of tritons, and 3 He particles were analyzed in the S800 magnetic spectrometer. Decay by neutron emission from excited states in Nb100 was observed by using plastic and liquid scintillator arrays. Differential cross sections were analyzed and monopole excitations were revealed by using a multipole decomposition analysis. The Gamow–Teller transition strength observed at low excitation energies, which is important for estimating the electron-capture rate in astrophysical scenarios, was strongly fragmented and reduced compared to single-particle and spherical mean-field models. The consideration of deformation in the theoretical estimates was found to be important to better describe the fragmentation and strengths. A strong excitation of the isovector spin giant monopole resonance was observed, and well reproduced by the mean-field models. Its presence makes the extraction of Gamow–Teller strengths at high excitation energies difficult. The branches for statistical and direct decay by neutron emission were identified in the spectra. The upper limit for the branching ratio by direct decay (integrated over all observed excitations) was determined to be 20±6% . Even though the statistical uncertainties in the neutron-coincident data were too large to perform detailed studies of the decay by neutron emission from individual states and resonances, the experiment demonstrates the feasibility of the method.

Published

2017

33. Observation of the Isovector Giant Monopole Resonance via the $^{28}$Si($^{10}$Be, $^{10}$B*[1.74 MeV]) Reaction at 100 $A$MeV

Author

Scott, M., Zegers, R.G.T., Almus, R., Austin, Sam M., Bazin, D., Brown, B.A., Campbell, C., Gade, A., Bowry, M., Galès, S., Garg, U., Harakeh, M.N., Kwan, E., Langer, C., Loelius, C., Lipschutz, S., Litvinova, E., Lunderberg, E., Morse, C., Noji, S., Perdikakis, G., Redpath, T., Robin, C., Sakai, H., Sasamoto, Y., Sasano, M., Sullivan, C., Tostevin, J.A., Uesaka, T., Weisshaar, D., Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects

Nuclear Theory, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Nuclear Experiment

Abstract

International audience; The (Be10,B*10[1.74 MeV]) charge-exchange reaction at 100 AMeV is presented as a new probe for isolating the isovector (ΔT=1) nonspin-transfer (ΔS=0) response of nuclei, with Si28 being the first nucleus studied. By using a secondary Be10 beam produced by fast fragmentation of O18 nuclei at the NSCL Coupled Cyclotron Facility, applying the dispersion-matching technique with the S800 magnetic spectrometer to determine the excitation energy in Al28, and performing high-resolution γ-ray tracking with the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to identify the 1022-keV γ ray associated with the decay from the 1.74-MeV T=1 isobaric analog state in B10, a ΔS=0 excitation-energy spectrum in Al28 was extracted. Monopole and dipole contributions were determined through a multipole-decomposition analysis, and the isovector giant dipole resonance and isovector giant monopole resonance (IVGMR) were identified. The results show that this probe is a powerful tool for studying the elusive IVGMR, which is of interest for performing stringent tests of modern density functional theories at high excitation energies and for constraining the bulk properties of nuclei and nuclear matter. The extracted distributions were compared with theoretical calculations based on the normal-modes formalism and the proton-neutron relativistic time-blocking approximation. Calculated cross sections based on these strengths underestimate the data by about a factor of 2, which likely indicates deficiencies in the reaction calculations based on the distorted wave Born approximation.

Published

2017

34. The ( Li6,Li*6[3.56MeV] ) reaction at 100 MeV/u as a probe of Gamow-Teller transition strengths in the inelastic scattering channel

Author

Sullivan, C., primary, Zegers, R. G. T., additional, Noji, S., additional, Austin, Sam M., additional, Schmitt, J., additional, Aoi, N., additional, Bazin, D., additional, Carpenter, M., additional, Carroll, J. J., additional, Fujita, H., additional, Garg, U., additional, Gey, G., additional, Guess, C. J., additional, Hoang, T. H., additional, Harakeh, M. N., additional, Hudson, E., additional, Ichige, N., additional, Ideguchi, E., additional, Inoue, A., additional, Isaak, J., additional, Iwamoto, C., additional, Kacir, C., additional, Koike, T., additional, Kobayashi, N., additional, Lipschutz, S., additional, Liu, M., additional, von Neumann-Cosel, P., additional, Ong, H. J., additional, Pereira, J., additional, Raju, M. Kumar, additional, Tamii, A., additional, Titus, R., additional, Werner, V., additional, Yamamoto, Y., additional, Fang, Y. D., additional, Zamora, J. C., additional, Zhu, S., additional, and Zhou, X., additional

Published

2018

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

Author

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

Published

2017

36. Isovector excitations in 100Nb and their decays by neutron emission studied via the Mo100(t,He3+n) reaction at 115 MeV/u

Author

Miki, K., primary, Zegers, R.G.T., additional, Austin, Sam M., additional, Bazin, D., additional, Brown, B.A., additional, Dombos, A.C., additional, Grzywacz, R.K., additional, Harakeh, M.N., additional, Kwan, E., additional, Liddick, S.N., additional, Lipschutz, S., additional, Litvinova, E., additional, Madurga, M., additional, Mustonen, M.T., additional, Ong, W.J., additional, Paulauskas, S.V., additional, Perdikakis, G., additional, Pereira, J., additional, Peters, W.A., additional, Robin, C., additional, Scott, M., additional, Spyrou, A., additional, Sullivan, C., additional, and Titus, R., additional

Published

2017

37. Observation of the Isovector Giant Monopole Resonance via the Si28(Be10,B*10[1.74MeV]) Reaction at 100AMeV

Author

Scott, M., primary, Zegers, R. G. T., additional, Almus, R., additional, Austin, Sam M., additional, Bazin, D., additional, Brown, B. A., additional, Campbell, C., additional, Gade, A., additional, Bowry, M., additional, Galès, S., additional, Garg, U., additional, Harakeh, M. N., additional, Kwan, E., additional, Langer, C., additional, Loelius, C., additional, Lipschutz, S., additional, Litvinova, E., additional, Lunderberg, E., additional, Morse, C., additional, Noji, S., additional, Perdikakis, G., additional, Redpath, T., additional, Robin, C., additional, Sakai, H., additional, Sasamoto, Y., additional, Sasano, M., additional, Sullivan, C., additional, Tostevin, J. A., additional, Uesaka, T., additional, and Weisshaar, D., additional

Published

2017

38. Beta+ Gamow-teller transition strengths from Ti 46 and stellar electron-capture rates

Author

Noji, S, Zegers, R. G. T., Austin, S. M., Baugher, T, Bazin, D, Brown, B. A., Campbell, C. M., Cole, A. L., Doster, H. J., Gade, A, Guess, C. J., Gupta, S, Hitt, G. W., Langer, C, Lipschutz, S, Lunderberg, E, Meharchand, R, Meisel, Z, Perdikakis, G, Pereira, J, Recchia, Francesco, Schatz, H, Scott, M, Stroberg, S. R., Sullivan, C, Valdez, L, Walz, C, Weisshaar, D, Williams, S. J., and Wimmer, K.

Published

2014

39. Digital data acquisition for the Low Energy Neutron Detector Array (LENDA)

Author

Lipschutz, S., primary, Zegers, R.G.T., additional, Hill, J., additional, Liddick, S.N., additional, Noji, S., additional, Prokop, C.J., additional, Scott, M., additional, Solt, M., additional, Sullivan, C., additional, and Tompkins, J., additional

Published

2016

40. Survey of generalized pregroups and a question of Reinhold Baer

Author

Gaglione, A.M., Lipschutz, S., and Spellman, D.

Abstract

There has been recent interest in Stallings’ Pregroups. (See [2] and [12].) This paper gives a survey of generalized pregroups. We also answer a question of Reinhold Baer [1] on pregroups and answer a generalization of this question for generalized pregroups.

Published

2012

41. Gamow-Teller transitions toCa45via theSc45(t,He3+γ)reaction at115 MeV/uand its application to stellar electron-capture rates

Author

Noji, S., primary, Zegers, R. G. T., additional, Austin, Sam M., additional, Baugher, T., additional, Bazin, D., additional, Brown, B. A., additional, Campbell, C. M., additional, Cole, A. L., additional, Doster, H. J., additional, Gade, A., additional, Guess, C. J., additional, Gupta, S., additional, Hitt, G. W., additional, Langer, C., additional, Lipschutz, S., additional, Lunderberg, E., additional, Meharchand, R., additional, Meisel, Z., additional, Perdikakis, G., additional, Pereira, J., additional, Recchia, F., additional, Schatz, H., additional, Scott, M., additional, Stroberg, S. R., additional, Sullivan, C., additional, Valdez, L., additional, Walz, C., additional, Weisshaar, D., additional, Williams, S. J., additional, and Wimmer, K., additional

Published

2015

42. Some properties of nilpotent groups

Author

Gaglione, A.M., Lipschutz, S., and Spellman, D.

Abstract

Property S, a finiteness property which can hold in infinite groups, was introduced by Stallings and others and shown to hold in free groups. In [2] it was shown to hold in nilpotent groups as a consequence of a technical result of Mal'cev. In that paper this technical result was dubbed property R. Hence, more generally, any property R group satisfies property S. In [7] it was shown that property R implies the following (labeled there weak property R) for a group G: If G₀ is any subgroup in G and G₀* is any homomorphic image of G₀, then the set of torsion elements in G₀* forms a locally finite subgroup. It was left as an open question in [7] whether weak property R is equivalent to property R. In this paper we give an explicit counterexample thereby proving that weak property R is strictly weaker than property R.

Published

2009

43. β+Gamow-Teller Transition Strengths fromTi46and Stellar Electron-Capture Rates

Author

Noji, S., primary, Zegers, R. G. T., additional, Austin, Sam M., additional, Baugher, T., additional, Bazin, D., additional, Brown, B. A., additional, Campbell, C. M., additional, Cole, A. L., additional, Doster, H. J., additional, Gade, A., additional, Guess, C. J., additional, Gupta, S., additional, Hitt, G. W., additional, Langer, C., additional, Lipschutz, S., additional, Lunderberg, E., additional, Meharchand, R., additional, Meisel, Z., additional, Perdikakis, G., additional, Pereira, J., additional, Recchia, F., additional, Schatz, H., additional, Scott, M., additional, Stroberg, S. R., additional, Sullivan, C., additional, Valdez, L., additional, Walz, C., additional, Weisshaar, D., additional, Williams, S. J., additional, and Wimmer, K., additional

Published

2014

44. GROUPS UNIVERSALLY EQUIVALENT TO FREE BURNSIDE GROUPS OF PRIME EXPONENT AND A QUESTION OF PHILIP HALL

Author

Gaglione, A., primary, Lipschutz, S., additional, and Spellman, D., additional

Published

2008

45. On Embeddable Prees

Author

Kushner, H., primary and Lipschutz, S., additional

Published

1993

46. Constraining the rp-process by measuring 23Al(d,n)24Si with GRETINA and LENDA at NSCL

Author

Wolf Clemens, Langer Christoph, Montes Fernando, Pereira Jorge, Ahn Sunghoon, Ayoub Sara, Bazin Daniel, Bender Peter, Brown Alex, Browne Justin, Crawford Heather, Deleeuw Eric, Elman Brandon, Fiebiger Stefan, Gade Alexandra, Gastis Panagiotis, Lipschutz Samuel, Longfellow Brenden, Nunes Filomena, Ong Wei-Jia, Poxon-Pearson Terri, Perdikakis Georgios, Reifarth René, Schatz Hendrik, Schmidt Konrad, Schmitt Jaclyn, Sullivan Chris, Titus Rachel, Weisshaar Dirk, Woods Philip, Zamora Juan Carlos, and G.T. Zegers Remco

Subjects

Physics, QC1-999

Abstract

The 23Al(p, γ)24Si stellar reaction rate has a significant impact on the light-curve emitted in X-ray bursts. Theoretical calculations show that the reaction rate is mainly determined by the properties of direct capture as well as low-lying 2+ states and a possible 4+ state in 24Si. Currently, there is little experimental information on the properties of these states. In this proceeding we will present a new experimental study to investigate this reaction, using the surrogate reaction 23Al(d,n) at 47 AMeV at the National Superconducting Cyclotron Laboratory (NSCL). We will discuss our new experimental setup which allows us to use full kinematics employing the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to detect the γ-rays following the de-excitation of excited states of the reaction products and the Low Energy Neutron Detector Array (LENDA) to detect the recoiling neutrons. The S800 was used for identification of the 24Si recoils. As a proof of principle to show the feasibility of this concept the Q-value spectrum of 22Mg(d,n)23Al is reconstructed.

Published

2017

47. Gamow-Teller transitions to 45Ca via the 45Sc(t,3He +γ) reaction at 115 MeV/u and its application to stellar electron-capture rates.

Author

Noji, S., Zegers, R. G. T., Austin, Sam M., Baugher, T., Bazin, D., Brown, B. A., Campbell, C. M., Cole, A. L., Doster, H. J., Gade, A., Guess, C. J., Gupta, S., Hitt, G. W., Langer, C., Lipschutz, S., Lunderberg, E., Meharchand, R., Meisel, Z., Perdikakis, G., and Pereira, J.

Subjects

*NEUTRON stars, *SUPERNOVAE, *NUCLEAR shell theory, *ATOMIC nucleus, *CHARGE exchange reactions

Abstract

Background: Stellar electron-capture reactions on medium-heavy nuclei are important for many astrophysical phenomena, including core-collapse and thermonuclear supernovae and neutron stars. Estimates of electroncapture rates rely on accurate estimates of Gamow-Teller strength distributions, which can be extracted from charge-exchange reactions at intermediate beam energies. Measured Gamow-Teller transition strength distributions for stable pf:shell nuclei are reasonably well reproduced by theoretical calculations in the shell model, except for lower mass nuclei where admixtures from the sd shell can become important. Purpose: This paper presents a β+ charge-exchange experiment on 45Sc, one of the lightest pf-shell nuclei. The focus was on Gamow-Teller transitions tofinal states at low excitation energies, which are particularly important for accurate estimations of electron-capture rates at relatively low stellar densities. The experimental results are compared with various theoretical models. Method: The double-differential cross section for the 45Sc(t, 3He +γ) reaction was measured using the NSCL Coupled-Cyclotron Facility at 115 MeV/u. Gamow-Teller contributions to the excitation-energy spectra were extracted by means of a multipole-decomposition analysis, γ rays emitted due to the deexcitation of 45Ca were measured using GRETINA to allow for the extraction of Gamow-Teller strengths from very weak transitions at low excitation energies. Results: Gamow-Teller transition strengths to 45Ca were extracted up to an excitation energy of 20 MeV, and that to the first excited state in 45Ca at 174 keV was extracted from the γ-ray measurement, which, even though weak, is important for the astrophysical applications and dominates under certain stellar conditions. Shell-model calculations performed in the pf shell-model space with the GXPF1A, KB3G, and FPD6 interactions did not reproduce the experimental Gamow-Teller strength distribution, and a calculation using the quasiparticle random phase approximation that is often used in astrophysical simulations also could not reproduce the experimental strength distribution. Conclusions: Theoretical models aimed at describing Gamow-Teller transition strengths from nuclei in the lower pf shell for the purpose of estimating electron-capture rates for astrophysical simulations require further development. The likely cause for the relatively poor performance of the shell-model theory is the influence of intruder configurations from the sd shell. The combination of charge-exchange experiments at intermediate beam energy and high-resolution γ-ray detection provides a powerful technique to identify weak transitions to low-lying final states that are nearly impossible to identify without the coincidences. Identification of these weak low-lying transitions is important for providing accurate electron-capture rates for astrophysical simulations [ABSTRACT FROM AUTHOR]

Published

2015

48. β+ Gamow-Teller Transition Strengths from 46Ti and Stellar Electron-Capture Rates.

Author

Noji, S., Zegers, R. G. T., Austin, Sam M., Baugher, T., Bazin, D., Brown, B. A., Campbell, C. M., Cole, A. L., Doster, H. J., Gade, A., Guess, C. J., Gupta, S., Hitt, G. W., Langer, C., Lipschutz, S., Lunderberg, E., Meharchand, R., Meisel, Z., Perdikakis, G., and Pereira, J.

Subjects

*TRANSITION strengths, *ELECTRON capture, *ASTROPHYSICS, *TEMPERATURE, *ELECTRONIC excitation, *CHARGE exchange

Abstract

The Gamow-Teller strength in the β+ direction to 46Sc was extracted via the 46Ti(t, 3He + γ) reaction at 115 MeV/u. The γ-ray coincidences served to precisely measure the very weak Gamow-Teller transition to a final state at 991 keV. Although this transition is weak, it is crucial for accurately estimating electron-capture rates in astrophysical scenarios with relatively low stellar densities and temperatures, such as presupernova stellar evolution. Shell-model calculations with different effective interactions in the pf shell-model space do not reproduce the experimental Gamow-Teller strengths, which is likely due to sd-shell admixtures. Calculations in the quasiparticle random phase approximation that are often used in astrophysical simulations also fail to reproduce the experimental Gamow-Teller strength distribution, leading to strongly overestimated electron-capture rates. Because reliable theoretical predictions of Gamow-Teller strengths are important for providing astrophysical electron-capture reaction rates for a broad set of nuclei in the lower pf shell, we conclude that further theoretical improvements are required to match astrophysical needs. [ABSTRACT FROM AUTHOR]

Published

2014

49. Gamow-Teller transitions to 93Zr via the 93Nb(t, ³He+γ) reaction at 115 MeV/u and its application to the stellar electron-capture rates.

Author

Gao, B., Zegers, R. G. T., Zamora, J. C., Bazin, D., Brown, B. A., Bender, P., Crawford, H. L., Engel, J., Falduto, A., Gade, A., Gastis, P., Ginter, T., Guess, C. J., Lipschutz, S., Macchiavelli, A. O., Miki, K., Ney, E. M., Longfellow, B., Noji, S., and Pereira, J.

Subjects

*FERMI energy, *NUCLEAR astrophysics, *RATES, *DATABASES, *SUPERNOVAE

Abstract

Electron-capture reactions play important roles in the late evolution of core-collapse supernovae. The electron-capture rates used in astrophysical simulations rely on theoretical calculations which have to be tested against and guided by experimental data. We report on the measurement of the Gamow-Teller strength distribution of the odd-mass nucleus 93Nb via the (t, ³He + γ) charge-exchange reaction at a beam energy of 115 MeV/u. The Gamow-Teller strength distributions were extracted up to an excitation energy in 93Zr of 10 MeV. The results were compared with shell-model and quasiparticle random-phase approximation (QRPA) calculations. The theoretical calculations fail to describe the details of the strength distribution, but estimate reasonably well the integrated Gamow-Teller transition strength. Electron-capture rates derived from the measured and theoretical strength distributions match reasonably well, especially at the higher stellar densities of importance for deleptonization during the collapse of the stellar core, since the electron-capture Q value is close to zero and the Fermi energy sufficiently high to ensure that the details of the strength distribution do not have a strong impact on the derived rates. At stellar densities in excess of 109 g/cm³, the electron-capture rate based on a single-state approximation used in astrophysical simulations is slightly higher than the rates based on the data and the shell-model and QRPA calculations, likely due to the fact that the approximation includes temperature-dependent effects, which increase the rates. However, the difference is much smaller than that observed in recent studies of nuclei with Z<40 near N=50, suggesting that the single-state approximation does not account for Pauli-blocking effects for nuclei with Z<40 that are much stronger than those for 93Nb with Z=41. [ABSTRACT FROM AUTHOR]

Published

2020

50. Constraints for stellar electron-capture rates on 86Kr via the 86Kr(t,³He+γ)86Br reaction and the implications for core-collapse supernovae.

Author

Titus, R., Ney, E. M., Zegers, R. G. T., Bazin, D., Belarge, J., Bender, P. C., Brown, B. A., Campbell, C. M., Elman, B., Engel, J., Gade, A., Gao, B., Kwan, E., Lipschutz, S., Longfellow, B., Lunderberg, E., Mijatović, T., Noji, S., Pereira, J., and Schmitt, J.

Subjects

*NEUTRINOS, *SUPERNOVAE, *NEUTRON emission, *ELECTRON capture, *ATOMIC number, *GRAVITATIONAL waves, *RATES

Abstract

Background: In the late stages of stellar core collapse just prior to core bounce, electron captures on medium-heavy nuclei drive deleptonization. Therefore, simulations require the use of accurate reaction rates. Nuclei with neutron number near N=50 above atomic number Z=28 play an important role. Rates presently used in astrophysical simulations rely primarily on a relatively simple single-state approximation. In order to improve the accuracy of the astrophysical simulations, experimental data are needed to test the electron-capture rates and to guide the development of better theoretical models and astrophysical simulations. Purpose: The purpose of the present work was to measure the Gamow-Teller transition strength from 86Kr to 86Br, to derive the stellar electron-capture rates based on the extracted strengths, and to compare the derived rates with rates based on shell-model and quasiparticle random-phase approximation (QRPA) Gamow-Teller strengths calculations, as well as the single-state approximation. An additional purpose was to test the impact of using improved electron-capture rates on the late evolution of core-collapse supernovae. Method: The Gamow-Teller strengths from 86Kr were extracted from the 86Kr(t,³He+γ) charge-exchange reaction at 115MeV/u. The electron-capture rates were calculated as a function of stellar density and temperature. Besides the case of 86Kr, the electron-capture rates based on the QRPA calculations were calculated for 78 additional isotopes near N=50 above Z=28. The impact of using these rates instead of those based on the single-state approximation is studied in a spherically symmetrical simulation of core collapse just prior to bounce. Results: The derived electron-capture rates on 86Kr from the experimental Gamow-Teller strength distribution are much smaller than the rates estimated based on the single-state approximation. Rates based on Gamow-Teller strengths estimated in shell-model and QRPA calculations are more accurate. The core-collapse supernova simulation with electron-capture rates based on the QRPA calculations indicate a significant reduction in the deleptonization during the collapse phase. Conclusions: It is important to utilize microscopic theoretical models that are tested by experimental data to constrain and estimate Gamow-Teller strengths and derived electron-capture rates for nuclei near N=50 that are inputs for astrophysical simulations of core-collapse supernovae and their multimessenger signals, such as the emission of neutrinos and gravitational waves. [ABSTRACT FROM AUTHOR]

Published

2019