Your search keyword '"G.P.A. Berg"' showing total 14 results

1. Design of the High Rigidity Spectrometer at FRIB

Author

S. Noji, R.G.T. Zegers, G.P.A. Berg, A.M. Amthor, T. Baumann, D. Bazin, E.E. Burkhardt, M. Cortesi, J.C. DeKamp, M. Hausmann, M. Portillo, D.H. Potterveld, B.M. Sherrill, A. Stolz, O.B. Tarasov, and R.C. York

Subjects

Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Physics::Accelerator Physics, FOS: Physical sciences, Astrophysics::Earth and Planetary Astrophysics, Instrumentation and Detectors (physics.ins-det), Nuclear Experiment (nucl-ex), Nuclear Experiment, Instrumentation

Abstract

A High Rigidity Spectrometer (HRS) has been designed for experiments at the Facility for Rare-Isotope Beams (FRIB) at Michigan State University (MSU). The HRS will allow experiments to be performed with the most exotic neutron-rich isotopes at high beam energies ($\gtrsim$100MeV/u). The HRS consists of an analysis beamline called the High-Transmission Beamline (HTBL) and the spectrometer proper called the Spectrometer Section. The maximum magnetic rigidity of the HRS is 8Tm, which corresponds to the rigidities at which rare-isotope beams are optimally produced at FRIB. The resolving power, angular acceptance, and momentum acceptance are set to match the anticipated scientific program. An ion-optical design developed for the HRS is described in detail, along with the specifications of the associated magnet and detector systems., Comment: 24 pages, 26 figures, 6 tables

Published

2022

2. High-resolution study of Tz=+1→0 Gamow-Teller transitions in the Mg26(He3,t ) Al26 reaction

Author

R. Kehl, Hiroshi Matsubara, Y. Shimbara, P. von Neumann-Cosel, D. Ishikawa, E.-W. Grewe, J. H. Thies, Hisataka Yoshida, Yifei Niu, Hisanori Fujita, Gianluca Colò, G.P.A. Berg, K. Suda, T. Niizeki, Kalayar Win, Atsushi Tamii, T. Ruhe, D. Frekers, Yee Yee Oo, Y. Kalmykov, Kichiji Hatanaka, H. Dohmann, Yoshitaka Fujita, N. T. Khai, T. Adachi, and Masanori Dozono

Subjects

Physics, Nuclear physics, 010308 nuclear & particles physics, 0103 physical sciences, High resolution, 010306 general physics, 01 natural sciences

Published

2017

3. Low-Energy Super Gamow-Teller State

Author

E. Ganioglu, Hiroyuki Sagawa, Katsuya Hirota, Kenichi Matsuyanagi, D. Ishikawa, P. von Brentano, H. Okamura, Kazuo Muto, Lucia Popescu, C. Fransen, C. L. Bai, Attila Krasznahorkay, Yuji Shimizu, Yoshitaka Fujita, K. Nakanishi, J. Gulyás, G. Susoy, T. Suzuki, M. Uchida, Tomotsugu Wakasa, T. Adachi, Juzo Zenihiro, Gianluca Colò, M. Yosoi, F. Molina, Katsumasa Fujita, Yuji Tameshige, Atsushi Tamii, D. De Frenne, J. H. Thies, J. M. Deaven, C. Scholl, E. Jacobs, G.P.A. Berg, Y. Shimbara, Pedro Sarriguren, Takaharu Otsuka, Rhiannon Meharchand, K. O. Zell, Hooi Jin Ong, A. Negret, Michio Honma, Remco Zegers, Norbert Pietralla, Hiroaki Matsubara, Kichiji Hatanaka, Carol Guess, M. Csatlós, E. Estevez-Aguado, Hisanori Fujita, A. Algora, G. Perdikakis, and B. Rubio

Subjects

Physics, Nuclear physics, Low energy, State (functional analysis)

Abstract

Y. Fujita1,2 H. Fujita1 T. Adachi1 C.L. Bai3 A. Algora4,5 G.P.A. Berg6 P. von Brentano7 G. Colo8 M. Csatlos5 J.M. Deaven9 E. Estevez-Aguado4 C. Fransen7 D. De Frenne10 K. Fujita1 E. Ganioglu11 C.J. Guess9 J. Gulyas5 K. Hatanaka1 K. Hirota1 M. Honma12 D. Ishikawa1 E. Jacobs10 A. Krasznahorkay5 H. Matsubara1 K. Matsuyanagi13 R. Meharchand9 F. Molina4 K. Muto14 K. Nakanishi1 A. Negret15 H. Okamura1 H.J. Ong1 T. Otsuka16 N. Pietralla7 G. Perdikakis9 L. Popescu17 B. Rubio4 H. Sagawa13 P. Sarriguren18 C. Scholl7 Y. Shimbara19 Y. Shimizu1 G. Susoy11 T. Suzuki1 Y. Tameshige1 A. Tamii1 J.H. Thies20 M. Uchida1 T. Wakasa1 M. Yosoi1 R.G.T. Zegers1 K.O. Zell7 J. Zenihiro1

Published

2015

4. Dual magnetic separator for

Author

Klaus-Peter Jungmann, G.P.A. Berg, M.N. Harakeh, H. W. Wilschut, E. Traykov, A. Rogachevskiy, Lorenz Willmann, Peter Dendooven, M. Sohani, U. Dammalapati, C. J. G. Onderwater, and O. Dermois

Subjects

Physics, Nuclear and High Energy Physics, Isotope, Spectrometer, Magnetic separator, Recoil separator, Ion, Nuclear physics, Thermal, Physics::Accelerator Physics, Nuclide, Nuclear Experiment, Instrumentation, Beam (structure)

Abstract

The TRI mu P facility, under construction at KVI, requires the production and separation of short-lived and rare isotopes. Direct reactions, fragmentation and fusion-evaporation reactions in normal and inverse kinematics are foreseen to produce nuclides of interest with a variety of heavy-ion beams from the superconducting cyclotron AGOR. For this purpose, we have designed, constructed and commissioned a versatile magnetic separator that allows efficient injection into an ion catcher, i.e., gas-filled stopper/cooler or thermal ionizer, from which a low energy radioactive beam will be extracted. The separator performance was tested with the production and clean separation of Na-21 ions, where a beam purity of 99.5% could be achieved. For fusion-evaporation products, some of the features of its operation as a gas-filled recoil separator were tested. (c) 2006 Elsevier B.V. All rights reserved.

Published

2006

5. Study of the pionic enhancement in O16(p,p′)O16(0−,T=1) at 295 MeV

Author

Y. Yasuda, Tomotsugu Wakasa, N. Sakamoto, H. Fujimura, H. Takeda, H. P. Yoshida, Katsumasa Fujita, J. Kamiya, G.P.A. Berg, Yukihiko Kitamura, M. Yosoi, E. Obayashi, Makoto Uchida, Harutaka Sakaguchi, Kichiji Hatanaka, Yuji Shimizu, Takeo Kawabata, Yasuhiro Sakemi, Masatoshi Itoh, and M. Ichimura

Subjects

Physics, Nuclear and High Energy Physics, Isovector, Scattering, Nuclear Theory, Momentum transfer, Nuclear physics, Pion, Isobar, Atomic physics, Nuclear Experiment, Wave function, Random phase approximation, Excitation

Abstract

The cross section of the O16(p,p′)O16(0−,T=1) scattering was measured at a bombarding energy of 295 MeV in the momentum transfer range of 1.0fm−1⩽qc.m.⩽2.1fm−1. The isovector 0− state at Ex=12.8MeV is clearly separated from its neighboring states owing to the high energy resolution of about 30 keV. The cross section data were compared with distorted wave impulse approximation (DWIA) calculations employing shell-model wave functions. The observed cross sections around qc.m.≃1.7fm−1 are significantly larger than obtained by these calculations, suggesting pionic enhancement as a precursor of pion condensation in nuclei. The data are well reproduced by DWIA calculations using random phase approximation response functions including the Δ isobar that predict pionic enhancement.

Published

2006

6. Possible observation of the orbital in 96249Cm

Author

John P. Greene, G.P.A. Berg, B. B. Back, W.R. Lozowski, T. Yamanaka, L. R. Morss, C. C. Foster, A. D. Bacher, W. M. Schmitt, E. J. Stephenson, T. Ishii, I. Ahmad, and R. R. Chasman

Subjects

Physics, Momentum, Nuclear and High Energy Physics, Angular momentum, Spectrometer, law, Cyclotron, Alpha particle, Atomic physics, Excitation, Spectral line, Ion, law.invention

Abstract

The position of the K 17 2 shell orbital plays a significant role in determining the shell correction energy and hence the stability of the superheavy elements. A deformed component of this orbital, 1 2 + [880] , comes down in energy with increasing prolate deformation, and is expected to have an excitation energy of less than 2 MeV in nuclei with N = 153. We have performed the reaction 248Cm(4He,3He) using 98.5-MeV alpha particles from the IUCF cyclotron to populate high-l states in 249Cm. this reaction preferentially excites high-l states because of the angular momentum mismatch. The emerging 3He ions were momentum analyzed with the K600 magnetic spectrometer. Spectra were measured at θcm = 4.1°, 6.1°, 10.2°, 12.2°, and 16.2° The spectrometer was calibrated with the 208Pb(4He,3He) and 232Th(4He,3He) reactions at the same incident energy. Three strong peaks were identified in the 248Cm(4He,3He) spectrum and these have been given tentative assignments: 593 keV, 15 2 11 2 − [725] ; 1560 keV and 1898 keV, 17 2 1 2 + [880] , 15 2 13 2 − [716] . Our data do not distinguish between the 17 2 + and 15 2 − assignments.

Published

1999

7. Gamow-Teller strengths from (t,3He) charge-exchange reactions on light nuclei

Author

G.P.A. Berg, K. Pham, J. W. Jänecke, Atsushi Tamii, M. Steiner, B. M. Sherrill, D.A. Roberts, I. Daito, Shintaro Nakayama, B. Davids, M. Yosoi, Yoshitaka Fujita, Hidetoshi Akimune, K. Ishibashi, Hiroyuki Toyokawa, T. Inomata, M.H. Tanaka, M. Fujiwara, H. Fujimura, Ryuta Hazama, D. Bazin, Sam M. Austin, and J. A. Brown

Subjects

Physics, Nuclear and High Energy Physics, Light nucleus, Resolution (electron density), Dispersion (optics), Atomic physics, Breakup, Beam (structure), Charge exchange

Abstract

Zero-degree cross sections have been measured for (t, 3 He) reactions on the light target nuclei 9 Be, 10 B, 11 B, 12 C, and 13 C at a bombarding energy of 127 MeV/A. The triton beam was produced by ( 4 He,t+p) breakup on a Be production target using a 4 He beam of 155 MeV/A. Dispersion matching was applied to obtain good energy resolution ( Δ E/E=0.002, Δ E=780 keV). The zero-degree (t, 3 He) cross sections are used to discuss Gamow-Teller strengths in 10 Be and 11 Be.

Published

1998

8. The 'other' giant dipole resonance: Evidence for the isoscalar giant dipole resonance in 208Pb from inelastic α scattering at 0°

Author

E. J. Stephenson, M. Fujiwara, U. Garg, J Lissanti, D.A. Roberts, W. Reviol, G.P.A. Berg, B.F. Davis, K. Pham, A. D. Bacher, J. W. Jänecke, Yan Alexander Wang, Hidetoshi Akimune, M.N. Harakeh, and C. C. Foster

Subjects

Physics, Nuclear and High Energy Physics, Dipole, Angular distribution, Scattering, Isoscalar, Inelastic scattering, Atomic physics, α particles, Resonance (particle physics), Spectral line

Abstract

The isoscalar giant dipole resonance (ISGDR) in 208 Pb has been investigated using inelastic scattering of 200 MeV α particles at and near 0° where the angular distribution of the ISGDR can be clearly differentiated from other modes. The “difference of spectra” technique was employed to separate the contribution from the high-energy octupole resonance (HEOR). Preliminary angular distribution data provide clear evidence for the ISGDR adjacent to the HEOR.

Published

1996

9. Looking for the isoscalar giant dipole resonance in 208Pd using inelastic a scattering at and near O°

Author

Muhsin N. Harakeh, E. J. Stephenson, M. Fujiwara, J. Ussanti, Hidetoshi Akimune, G.P.A. Berg, K. Pham, A. D. Bacher, U. Garg, Yan Alexander Wang, W. Reviol, B.F. Davis, J. W. Jänecke, and D.A. Roberts

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Dipole, Angular distribution, Scattering, Isoscalar, Inelastic scattering, Atomic physics, Resonance (particle physics), α particles, Spectral line

Abstract

The isoscalar giant dipole resonance (ISGDR) in 208Pb has been investigated using inelastic scattering of 200 MeV α particles at and near 0° where the angular distribution of the ISGDR can be clearly differentiated from other modes. The “difference of spectra” technique was employed to separate the contribution from the high-energy octupole resonance (HEOR). Results from a preliminary analysis of the data are consistent with the expected positions of the ISGOR and HEOR, as well as their expected angular distributions near 0°.

Published

1994

10. Non-spin-flip (3He, t) charge-exchange and isobaric analog states of actinide nuclei studied at and 200 MeV

Author

G. Brouwer, R. Sawafta, E. J. Stephenson, S.Y. van der Werf, M.B. Greenfield, J.M. Schippers, A.M. van den Berg, D. Stewart, Fredrick D. Becchetti, A. Nadasen, J. W. Jänecke, G.P.A. Berg, D.A. Roberts, M.A. Hofstee, and Muhsin N. Harakeh

Subjects

Physics, Nuclear reaction, Nuclear and High Energy Physics, Isovector, Isospin, Nuclear Theory, Coulomb, Isobaric process, Resonance, Spin-flip, Atomic physics, Nuclear Experiment, Spectral line

Abstract

The (He-3, t) charge-exchange reaction has been studied at theta = 0-degree-C and bombarding energies of E(He-3) = 76.5 MeV and 200 MeV. Spectra were measured using magnetic analysis for target nuclei of C-12, C-13, O-16, F-19, Si-28, Si-29, Si-30, Zr-90, Sn-117, Sn-120, (nat)Ta, (nat)W, Au-197, Pb-208, Th-230, Th-232, U-234, U-236, U-238 and Pu-244. The measurements at 76.5 MeV concentrated on the isobaric analog states of several actinide nuclei, particularly on their widths and the branching ratios for proton decay. Cross sections, Q-values and total widths were determined for the transitions to the isobaric analog states. Coulomb displacement energies derived from the measured Q-values display the influence of deformed nuclear shapes. Escape widths GAMMA-up and spreding widths GAMMA-down of the isobaric analog states in five actinide nuclei were deduced from the measured proton-decay branching ratios. They were found to be in agreement with predictions which postulate isospin mixing via the Coulomb force with the (T0-1)-component of the isovector giant monopole resonance. The measurements at 200 MeV were concerned with transitions to isobaric analog states in both light and heavy nuclei, including several actinide nuclei, but Gamow-Teller resonances and transitions to numerous other states were also observed. The measured cross sections for several transitions to isobaric analog states from Si-30 to Pb-208 were used to extract the effective interaction V(tau) for non-spin-flip (He-3, t) charge exchange at E(He-3) almost-equal-to 200 MeV. The interaction strength V(tau) decreases by a factor 0.6 when compared to previously measured values for the energy range E(He-3) = 65 to 90 MeV. An angular distribution from theta(t) = 0-degree to 16-degrees for the transition to the isobaric analog state in Sb-120 measured at E(He-3) = 200 MeV was found to be in very good agreement with microscopic calculations.

Published

1991

11. High-resolution study of Gamow-Teller transitions from theTz=1nucleusTi46to theTz=0nucleusV46

Author

Yasuhiro Sakemi, K. O. Zell, T. Adachi, A. Negret, Michio Honma, Kichiji Hatanaka, Keigo Kawase, M. Uchida, A. F. Lisetskiy, K. Nakanishi, Tomotsugu Wakasa, Kunihiro Fujita, Hisanori Fujita, E. Jacobs, G.P.A. Berg, Y. Fujita, Y. Shimbara, Atsushi Tamii, Junichiro Kamiya, M. Yosoi, Yuji Shimizu, P. von Brentano, Takahiro Mizusaki, D. De Frenne, C. Fransen, Lucia Popescu, Yuji Tameshige, Taka Otsuka, and Norbert Pietralla

Subjects

Physics, Nuclear and High Energy Physics, Nuclear Theory, Resolution (electron density), High resolution, Nuclear physics, medicine.anatomical_structure, Isospin, medicine, Atomic physics, Nuclear Experiment, Nucleon, Spin (physics), Magnetic dipole, Nucleus, Excitation

Abstract

The Gamow-Teller (GT) transition strengths in fp-shell nuclei are important parameters in presupernova models. A high-energy-resolution (He-3,t) experiment was performed on the T-z=1 nucleus Ti-46 at 0(degrees) and at an intermediate incident energy of 140 MeV/nucleon for the study of precise GT transition strengths to the final T-z=0 nucleus V-46. With an energy resolution of 33 keV, individual GT transitions were observed and GT strengths were derived for them up to the excitation energy of 4.5 MeV. The GT strengths were compared with shell-model calculations using various effective interactions. In this low-lying region, most GT states have isospin T=0. A few GT states with isospin T=1 were identified from the existence of the corresponding (analog) M1 states in Ti-46. By comparing the GT strength with the corresponding (analogous) M1 transition strength studied in Ti-46(e,e(')) or (gamma,gamma(')) measurements, a large constructive interference of orbital and spin terms was suggested for one of these M1 transitions.

Published

2006

12. Aspects of Cooling at the TRIμP Facility

Author

C. J. G. Onderwater, G.P.A. Berg, Lorenz Willmann, A.J. Mol, A. Rogachevskiy, M. Sohani, E. Traykov, O. Dermois, S. De, Peter Dendooven, Klaus-Peter Jungmann, H. W. Wilschut, and U. Dammalapati

Subjects

Physics, Energetic neutral atom, Cyclotron, Kinetic energy, Physics - Atomic Physics, law.invention, Ion, Momentum, Dipole, Physics - General Physics, Beamline, law, Physics::Atomic Physics, Atomic physics, Nuclear Experiment, Beam (structure)

Abstract

The Tri$\mu$P facility at KVI is dedicated to provide short lived radioactive isotopes at low kinetic energies to users. It comprised different cooling schemes for a variety of energy ranges, from GeV down to the neV scale. The isotopes are produced using beam of the AGOR cyclotron at KVI. They are separated from the primary beam by a magnetic separator. A crucial part of such a facility is the ability to stop and extract isotopes into a low energy beamline which guides them to the experiment. In particular we are investigating stopping in matter and buffer gases. After the extraction the isotopes can be stored in neutral atoms or ion traps for experiments. Our research includes precision studies of nuclear $\beta$-decay through $\beta$-$\nu$ momentum correlations as well as searches for permanent electric dipole moments in heavy atomic systems like radium. Such experiments offer a large potential for discovering new physics., Comment: COOL05 Workshop, Galena, Il, USA, 18-23. Sept. 2005, 5 pages, 3 figures

Published

2006

13. Isospin symmetry of T_z =±3/2 →±1/2 Gamow-Teller transitions in A=41 nucllei

Author

Y., Fujita, Y., Shimbara, T., Adachi, G.P.A., Berg, B.A., Brown, H., Fujita, K., Hatanaka, J., Kamiya, K., Nakanishi, Y., Sakemi, Y., Shimizu, Y., Tameshige, M., Uchida, T., Wakasa, M., Yosoi, S., Sasaki, Y., Fujita, Y., Shimbara, T., Adachi, G.P.A., Berg, B.A., Brown, H., Fujita, K., Hatanaka, J., Kamiya, K., Nakanishi, Y., Sakemi, Y., Shimizu, Y., Tameshige, M., Uchida, T., Wakasa, M., Yosoi, and S., Sasaki

Published

2004

14. Identification of a complete particle-octupole multiplet in 143Nd

Author

W. Hürlimann, G.P.A. Berg, C. Wesselborg, J. Meissburger, J. G. M. Römer, D. Bazzacco, C.F. Moore, R. Reinhardt, J. Wrzesinski, L. Trache, P. von Brentano, I. Katayama, and J. L. Tain

Subjects

Physics, Nuclear and High Energy Physics, medicine.anatomical_structure, Spins, Resolution (electron density), Shell (structure), medicine, Particle, Atomic physics, Multiplet, Nucleus

Abstract

In a high resolution (p,p′) experiment at E=25.5MeV, the complete particle-core coupled multiplet (3 − · f 7 2 ) J in the N=83 143Nd nucleus has been identified and the spins of its members assigned. The experimental results are discussed in connection with the observed large energy splitting of about 650 keV. The comparison with the corresponding multiplet observed in 146Gd is a new strong indication for the shell closure at Z=64.

Published

1983