Your search keyword '"H, Heylen"' showing total 100 results

1. Corrigendum to 'Nuclear charge radii of germanium isotopes around N = 40' [Physics Letters B, 856 (2024)138867]

Author

S.J. Wang, A. Kanellakopoulos, X.F. Yang, S.W. Bai, J. Billowes, M.L. Bissell, K. Blaum, B. Cheal, C.S. Devlin, R.F. Garcia Ruiz, J.Z. Han, H. Heylen, S. Kaufmann, K. König, Á. Koszorús, S. Lechner, S. Malbrunot-Ettenauer, W. Nazarewicz, R. Neugart, G. Neyens, W. Nörtershäuser, T. Ratajczyk, P.-G. Reinhard, L.V. Rodríguez, S. Sels, L. Xie, Z.Y. Xu, D.T. Yordanov, and Y.M. Yu

Subjects

Physics, QC1-999

Published

2024

2. Nuclear charge radii of germanium isotopes around N = 40

Author

S.J. Wang, A. Kanellakopoulos, X.F. Yang, S.W. Bai, J. Billowes, M.L. Bissell, K. Blaum, B. Cheal, C.S. Devlin, R.F. Garcia Ruiz, J.Z. Han, H. Heylen, S. Kaufmann, K. König, Á. Koszorús, S. Lechner, S. Malbrunot-Ettenauer, W. Nazarewicz, R. Neugart, G. Neyens, W. Nörtershäuser, T. Ratajczyk, P.-G. Reinhard, L.V. Rodríguez, S. Sels, L. Xie, Z.Y. Xu, D.T. Yordanov, and Y.M. Yu

Subjects

Collinear laser spectroscopy, Nuclear charge radii, Nuclear density functional theory, Ground state correlation, Physics, QC1-999

Abstract

Collinear laser spectroscopy measurements were performed on 68−74Ge isotopes (Z=32) at ISOLDE-CERN, by probing the 4s24p2P13→4s24p5sP1o3 atomic transition (269 nm) of germanium. Nuclear charge radii are determined via the measured isotope shifts, revealing a larger local variation than the neighboring isotopic chains. Nuclear density functional theory with the Fayans functionals Fy(Δr,HFB) and Fy(IVP), and the SV-min Skyrme describes the experimental data for the differential charge radii δ〈r2〉 and charge radii Rc within the theoretical uncertainties. The observed large variation in the charge radii of germanium isotopes is better accounted for by theoretical models incorporating ground state quadrupole correlations. This suggests that the polarization effects due to pairing and deformation contribute to the observed large odd-even staggering in the charge radii of the Ge isotopic chain.

Published

2024

3. Electromagnetic moments of the odd-mass nickel isotopes 59−67Ni

Author

P. Müller, S. Kaufmann, T. Miyagi, J. Billowes, M.L. Bissell, K. Blaum, B. Cheal, R.F. Garcia Ruiz, W. Gins, C. Gorges, H. Heylen, A. Kanellakopoulos, S. Malbrunot-Ettenauer, R. Neugart, G. Neyens, W. Nörtershäuser, T. Ratajczyk, L.V. Rodríguez, R. Sánchez, S. Sailer, A. Schwenk, L. Wehner, C. Wraith, L. Xie, Z.Y. Xu, X.F. Yang, and D.T. Yordanov

Subjects

Collinear laser spectroscopy, Electromagnetic moments, Nickel isotopes, Ab initio calculation, Valence-space in-medium similarity renormalization group, Nuclear shell model, Physics, QC1-999

Abstract

The magnetic dipole and the spectroscopic quadrupole moments of the nuclear ground states in the odd-mass nickel isotopes 59−67Ni have been determined using collinear laser spectroscopy at the CERN-ISOLDE facility. They are compared to ab initio valence-space in-medium similarity renormalization group (VS-IMSRG) calculations including contributions of two-body currents as well as to shell-model calculations. The two-body-current contributions significantly improve the agreement with experimental data, reducing the mean-square deviation from the experimental moments by a factor of 3 to 5, depending on the employed interaction. For all interactions, the largest contributions are obtained for the 52− (72−) isotopes 65Ni (55Ni), which is ascribed to the high angular momentum of the f orbitals. Our results demonstrate that the inclusion of two-body-current contributions to the magnetic moment in an isotopic chain of complex nuclei can be handled by the VS-IMSRG and can outperform phenomenological shell-model calculations using effective g-factors in the nickel region.

Published

2024

4. Electromagnetic moments of the antimony isotopes 112−133Sb

Author

S. Lechner, T. Miyagi, Z.Y. Xu, M.L. Bissell, K. Blaum, B. Cheal, C.S. Devlin, R.F. Garcia Ruiz, J.S.M. Ginges, H. Heylen, J.D. Holt, P. Imgram, A. Kanellakopoulos, Á. Koszorús, S. Malbrunot-Ettenauer, R. Neugart, G. Neyens, W. Nörtershäuser, P. Plattner, L.V. Rodríguez, G. Sanamyan, S.R. Stroberg, Y. Utsuno, X.F. Yang, and D.T. Yordanov

Subjects

Collinear laser spectroscopy, Electromagnetic moments, Ab-initio calculation, Physics, QC1-999

Abstract

Nuclear moments of the antimony isotopes 113−133Sb are measured by collinear laser spectroscopy and used to benchmark phenomenological shell-model and ab initio calculations in the valence-space in-medium similarity renormalization group (VS-IMSRG). The shell-model calculations reproduce the electromagnetic moments over all Sb isotopes when suitable effective g-factors and charges are employed. Good agreement is achieved by VS-IMSRG for magnetic moments on the neutron-deficient side for both odd-even and odd-odd Sb isotopes while its results deviate from experiment on the neutron-rich side. When the same effective g-factors are used, VS-IMSRG agrees with experiment nearly as well as the shell model. Hence, the wave functions are very similar in both approaches and missing contributions to the M1 operator are identified as the cause of the discrepancy of VS-IMSRG with experiment. Electric quadrupole moments remain more challenging for VS-IMSRG.

Published

2023

5. Local field potentials in the BNST in patients with OCD: acute effects of DBS after symptom provocation

Author

C. Bervoets, H. Heylen, B. Nuttin, and M. Mc Laughlin

Subjects

Deep brain stimulation, obsessive-compulsive disorder, local field potential, symptom provocation task, Psychiatry, RC435-571

Abstract

Introduction Obsessive-compulsive disorder (OCD) is a disabling psychiatric disorder that affects 2-3% of the population. Pharmacological or cognitive behavioral therapy can reduce symptoms. Deep brain stimulation is emerging for treatment-resistant patients. Objectives We measured neuronal activity in two patients with treatment-resistant OCD, who had DBS electrodes implanted bilaterally in the BNST. Local field potentials were recorded directly from the BNST during and without symptom provocation and without electrical stimulation. Methods In two patients with a diagnosis of treatment resistant OCD (TR-OCD) local field potentials (LFP) were recorded as part of their clinical follow up post-implantation. In both patients, the diagnosis of TR-OCD was confirmed by a neuropsychiatric examination and a multidisciplinary committee comprising both experienced psychiatrists and neurosurgeons from different medical centers in Belgium. We used BrainSense recording technology in the Percept PC to record the LFPs. The LFP recordings in the first patient were acquired on the 15th day after DBS surgery. In the second patient, the interval between implantation and recording was 18 days. Symptom provocation was performed using the MOCCS image set, developed by Mataix-Cols. Results At rest, relative power peaks in the BNST were highest in the theta (4-8 Hz) frequency band for both patients. In both patients switching DBS ON during provocation images appears to cause the LFP signal to closely resemble that recorded during neutral images. Conclusions The main finding of this pilot study is that switching stimulation ON in the BNST during provocation images causes the LFP signal to more closely resemble the LFP recorded during neutral images. Disclosure No significant relationships.

Published

2022

6. Electromagnetic moments of scandium isotopes and N = 28 isotones in the distinctive 0f7/2 orbit

Author

S.W. Bai, Á. Koszorús, B.S. Hu, X.F. Yang, J. Billowes, C.L. Binnersley, M.L. Bissell, K. Blaum, P. Campbell, B. Cheal, T.E. Cocolios, R.P. de Groote, C.S. Devlin, K.T. Flanagan, R.F. Garcia Ruiz, H. Heylen, J.D. Holt, A. Kanellakopoulos, J. Krämer, V. Lagaki, B. Maaß, S. Malbrunot-Ettenauer, T. Miyagi, R. Neugart, G. Neyens, W. Nörtershäuser, L.V. Rodríguez, F. Sommer, A.R. Vernon, S.J. Wang, X.B. Wang, S.G. Wilkins, Z.Y. Xu, and C.X. Yuan

Subjects

Collinear laser spectroscopy, Electromagnetic moments, Nucleon-nucleon correlation, Ab-initio calculation, Physics, QC1-999

Abstract

The electric quadrupole moment of 49Sc was measured by collinear laser spectroscopy at CERN-ISOLDE to be Qs=−0.159(8) eb, and a nearly tenfold improvement in precision was reached for the electromagnetic moments of 47,49Sc. The single-particle behavior and nucleon-nucleon correlations are investigated with the electromagnetic moments of Z=21 isotopes and N=28 isotones as valence neutrons and protons fill the distinctive 0f7/2 orbit, respectively, located between magic numbers, 20 and 28. The experimental data are interpreted with shell-model calculations using an effective interaction, and ab-initio valence-space in-medium similarity renormalization group calculations based on chiral interactions. These results highlight the sensitivity of nuclear electromagnetic moments to different types of nucleon-nucleon correlations, and establish an important benchmark for further developments of theoretical calculations.

Published

2022

7. Proton-neutron pairing correlations in the self-conjugate nucleus 42Sc

Author

Á. Koszorús, L.J. Vormawah, R. Beerwerth, M.L. Bissell, P. Campbell, B. Cheal, C.S. Devlin, T. Eronen, S. Fritzsche, S. Geldhof, H. Heylen, J.D. Holt, A. Jokinen, S. Kelly, I.D. Moore, T. Miyagi, S. Rinta-Antila, A. Voss, and C. Wraith

Subjects

Collinear laser spectroscopy, Hyperfine structure and isotope shift, Proton-neutron pairing, Charge radius, Physics, QC1-999

Abstract

Collinear laser spectroscopy of the N=Z=21 self-conjugate nucleus 42Sc has been performed at the JYFL IGISOL IV facility in order to determine the change in nuclear mean-square charge radius between the Iπ=0+ ground state and the Iπ=7+ isomer via the measurement of the 42g,42mSc isomer shift. New multi-configurational Dirac-Fock calculations for the atomic mass shift and field shift factors have enabled a recalibration of the charge radii of the 42−46Sc isotopes which were measured previously. While consistent with the treatment of proton-neutron, proton-proton and neutron-neutron pairing on an equal footing, the reduction in size for the isomer is observed to be of a significantly larger magnitude than that expected from both shell-model and ab-initio calculations. The measured nuclear magnetic dipole moment and electric quadruple moment, on the other hand, are in good agreement with simple empirical estimates and shell-model calculations.

Published

2021

8. Nuclear moments of the low-lying isomeric 1+ state of 34Al: Investigation on the neutron 1p1h excitation across N = 20 in the island of inversion

Author

Z.Y. Xu, H. Heylen, K. Asahi, F. Boulay, J.M. Daugas, R.P. de Groote, W. Gins, O. Kamalou, Á. Koszorús, M. Lykiardopoulou, T.J. Mertzimekis, G. Neyens, H. Nishibata, T. Otsuka, R. Orset, A. Poves, T. Sato, C. Stodel, J.C. Thomas, N. Tsunoda, Y. Utsuno, M. Vandebrouck, and X.F. Yang

Subjects

Physics, QC1-999

Abstract

The nuclear g factor and quadrupole moment (Qs) have been measured for the low-lying isomeric 1+ state of 34Al, using the β-detected nuclear magnetic resonance (β-NMR) and quadrupole resonance (β-NQR) methods. Spin-polarized 34Al isotopes were produced in a one-neutron pickup reaction induced by a 36S beam on a 9Be target at a kinetic energy of 77.5 MeV/nucleon, and were collected with the LISE fragment separator at GANIL. The measured g factor (|g| in a range of 1.757±0.014) and quadrupole moment (|Qs|=38(5) mb) are in good agreement with shell-model calculations using effective interactions. The similarity between the g factor of 34mAl and that of 32Al confirms a dominant neutron 2p1h configuration π(d5/2)−1⊗ν(d3/2)−1(f7/2)2 of 34mAl. In addition, the enhanced quadrupole moment of 34mAl relative to that of 32Al suggests that the neutron 1p1h excitation across the N=20 shell gap introduces extra nucleon–nucleon correlation and deformation. Keywords: β-NMR/NQR, g factor, Quadrupole moment, 34mAl

Published

2018

9. The nuclear magnetic moment of 208Bi and its relevance for a test of bound-state strong-field QED

Author

S. Schmidt, J. Billowes, M.L. Bissell, K. Blaum, R.F. Garcia Ruiz, H. Heylen, S. Malbrunot-Ettenauer, G. Neyens, W. Nörtershäuser, G. Plunien, S. Sailer, V.M. Shabaev, L.V. Skripnikov, I.I. Tupitsyn, A.V. Volotka, and X.F. Yang

Subjects

Physics, QC1-999

Abstract

The hyperfine structure splitting in the 6p3S3/24→6p27sP1/24 transition at 307 nm in atomic 208Bi was measured with collinear laser spectroscopy at ISOLDE, CERN. The hyperfine A and B factors of both states were determined with an order of magnitude improved accuracy. Based on these measurements, theoretical input for the hyperfine structure anomaly, and results from hyperfine measurements on hydrogen-like and lithium-like 209Bi80+,82+, the nuclear magnetic moment of 208Bi has been determined to μ(Bi208)=+4.570(10)μN. Using this value, the transition energy of the ground-state hyperfine splitting in hydrogen-like and lithium-like 208Bi80+,82+ and their specific difference of −67.491(5)(148) meV are predicted. This provides a means for an experimental confirmation of the cancellation of nuclear structure effects in the specific difference in order to exclude such contributions as the cause of the hyperfine puzzle, the recently reported 7-σ discrepancy between experiment and bound-state strong-field QED calculations of the specific difference in the hyperfine structure splitting of 209Bi80+,82+. Keywords: Nuclear magnetic moment, Bismuth, Hyperfine anomaly, Specific difference, Quantum electrodynamics, Laser spectroscopy

Published

2018

10. Evolution of nuclear structure in neutron-rich odd-Zn isotopes and isomers

Author

C. Wraith, X.F. Yang, L. Xie, C. Babcock, J. Bieroń, J. Billowes, M.L. Bissell, K. Blaum, B. Cheal, L. Filippin, R.F. Garcia Ruiz, W. Gins, L.K. Grob, G. Gaigalas, M. Godefroid, C. Gorges, H. Heylen, M. Honma, P. Jönsson, S. Kaufmann, M. Kowalska, J. Krämer, S. Malbrunot-Ettenauer, R. Neugart, G. Neyens, W. Nörtershäuser, F. Nowacki, T. Otsuka, J. Papuga, R. Sánchez, Y. Tsunoda, and D.T. Yordanov

Subjects

Physics, QC1-999

Abstract

Collinear laser spectroscopy was performed on Zn (Z=30) isotopes at ISOLDE, CERN. The study of hyperfine spectra of nuclei across the Zn isotopic chain, N=33–49, allowed the measurement of nuclear spins for the ground and isomeric states in odd-A neutron-rich nuclei up to N=50. Exactly one long-lived (>10 ms) isomeric state has been established in each 69–79Zn isotope. The nuclear magnetic dipole moments and spectroscopic quadrupole moments are well reproduced by large-scale shell–model calculations in the f5pg9 and fpg9d5 model spaces, thus establishing the dominant term in their wave function. The magnetic moment of the intruder Iπ=1/2+ isomer in 79Zn is reproduced only if the νs1/2 orbital is added to the valence space, as realized in the recently developed PFSDG-U interaction. The spin and moments of the low-lying isomeric state in 73Zn suggest a strong onset of deformation at N=43, while the progression towards 79Zn points to the stability of the Z=28 and N=50 shell gaps, supporting the magicity of 78Ni. Keywords: Zinc, Magnetic dipole moment, Quadrupole moment, Laser, Shell closure

Published

2017

11. Nuclear charge radii of 62−80Zn and their dependence on cross-shell proton excitations

Author

L. Xie, X.F. Yang, C. Wraith, C. Babcock, J. Bieroń, J. Billowes, M.L. Bissell, K. Blaum, B. Cheal, L. Filippin, K.T. Flanagan, R.F. Garcia Ruiz, W. Gins, G. Gaigalas, M. Godefroid, C. Gorges, L.K. Grob, H. Heylen, P. Jönsson, S. Kaufmann, M. Kowalska, J. Krämer, S. Malbrunot-Ettenauer, R. Neugart, G. Neyens, W. Nörtershäuser, T. Otsuka, J. Papuga, R. Sánchez, Y. Tsunoda, and D.T. Yordanov

Subjects

Physics, QC1-999

Abstract

Nuclear charge radii of 62−80Zn have been determined using collinear laser spectroscopy of bunched ion beams at CERN-ISOLDE. The subtle variations of observed charge radii, both within one isotope and along the full range of neutron numbers, are found to be well described in terms of the proton excitations across the Z=28 shell gap, as predicted by large-scale shell model calculations. It comprehensively explains the changes in isomer-to-ground state mean square charge radii of 69−79Zn, the inversion of the odd-even staggering around N=40 and the odd-even staggering systematics of the Zn charge radii. With two protons above Z=28, the observed charge radii of the Zn isotopic chain show a cumulative effect of different aspects of nuclear structure including single particle structure, shell closure, correlations and deformations near the proposed doubly magic nuclei, 68Ni and 78Ni. Keywords: Zinc, Nuclear charge radii, Shell closure, Nuclear deformation, Correlations

Published

2019

12. Quadrupole moments of odd-A 53−63Mn: Onset of collectivity towards N=40

Author

C. Babcock, H. Heylen, M.L. Bissell, K. Blaum, P. Campbell, B. Cheal, D. Fedorov, R.F. Garcia Ruiz, W. Geithner, W. Gins, T. Day Goodacre, L.K. Grob, M. Kowalska, S.M. Lenzi, B. Maass, S. Malbrunot-Ettenauer, B. Marsh, R. Neugart, G. Neyens, W. Nörtershäuser, T. Otsuka, R. Rossel, S. Rothe, R. Sánchez, Y. Tsunoda, C. Wraith, L. Xie, and X.F. Yang

Subjects

Quadrupole moments, Laser spectroscopy, Manganese, Deformation, Optical pumping, Physics, QC1-999

Abstract

The spectroscopic quadrupole moments of the odd–even Mn isotopes between N=28 and N=38 have been measured using bunched-beam collinear laser spectroscopy at ISOLDE, CERN. In order to increase sensitivity to the quadrupole interaction, the measurements have been done using a transition in the ion rather than in the atom, with the additional advantage of better spectroscopic efficiency. Since the chosen transition is from a metastable state, optical pumping in ISOLDE's cooler and buncher (ISCOOL) was used to populate this state. The extracted quadrupole moments are compared to large-scale shell model predictions using three effective interactions, GXPF1A, LNPS and modified A3DA. The inclusion of both the 1νg9/2 and 2νd5/2 orbitals in the model space is shown to be necessary to reproduce the observed increase in the quadrupole deformation from N=36 onwards. Specifically, the inclusion of the 2νd5/2 orbital induces an increase in neutron and proton excitations across the reduced gaps at N=40 and Z=28, leading to an increase in deformation above N=36.

Published

2016

13. Evidence for Increased neutron and proton excitations between Mn51−63

Author

C. Babcock, H. Heylen, J. Billowes, M.L. Bissell, K. Blaum, P. Campbell, B. Cheal, R.F. Garcia Ruiz, C. Geppert, W. Gins, M. Kowalska, K. Kreim, S.M. Lenzi, I.D. Moore, R. Neugart, G. Neyens, W. Nörtershäuser, J. Papuga, and D.T. Yordanov

Subjects

Magnetic dipole moment, Manganese, Spin determination, Physics, QC1-999

Abstract

The hyperfine structures of the odd-even 51−63Mn atoms (N=26−38) were measured using bunched beam collinear laser spectroscopy at ISOLDE, CERN. The extracted spins and magnetic dipole moments have been compared to large-scale shell-model calculations using different model spaces and effective interactions. In the case of 61,63Mn, the results show the increasing importance of neutron excitations across the N=40 subshell closure, and of proton excitations across the Z=28 shell gap. These measurements provide the first direct proof that proton and neutron excitations across shell gaps are playing an important role in the ground state wave functions of the neutron-rich Mn isotopes.

Published

2015

14. Nuclear Charge Radii of the Nickel Isotopes Ni58−68,70

Author

S. Malbrunot-Ettenauer, S. Kaufmann, S. Bacca, C. Barbieri, J. Billowes, M. L. Bissell, K. Blaum, B. Cheal, T. Duguet, R. F. Garcia Ruiz, W. Gins, C. Gorges, G. Hagen, H. Heylen, J. D. Holt, G. R. Jansen, A. Kanellakopoulos, M. Kortelainen, T. Miyagi, P. Navrátil, W. Nazarewicz, R. Neugart, G. Neyens, W. Nörtershäuser, S. J. Novario, T. Papenbrock, T. Ratajczyk, P.-G. Reinhard, L. V. Rodríguez, R. Sánchez, S. Sailer, A. Schwenk, J. Simonis, V. Somà, S. R. Stroberg, L. Wehner, C. Wraith, L. Xie, Z. Y. Xu, X. F. Yang, and D. T. Yordanov

Subjects

010308 nuclear & particles physics, 0103 physical sciences, General Physics and Astronomy, 010306 general physics, 01 natural sciences

Published

2022

15. Nuclear Charge Radii of the Nickel Isotopes $^{58-68,70}$Ni

Author

S, Malbrunot-Ettenauer, S, Kaufmann, S, Bacca, C, Barbieri, J, Billowes, M L, Bissell, K, Blaum, B, Cheal, T, Duguet, R F Garcia, Ruiz, W, Gins, C, Gorges, G, Hagen, H, Heylen, J D, Holt, G R, Jansen, A, Kanellakopoulos, M, Kortelainen, T, Miyagi, P, Navrátil, W, Nazarewicz, R, Neugart, G, Neyens, W, Nörtershäuser, S J, Novario, T, Papenbrock, T, Ratajczyk, P-G, Reinhard, L V, Rodríguez, R, Sánchez, S, Sailer, A, Schwenk, J, Simonis, V, Somà, S R, Stroberg, L, Wehner, C, Wraith, L, Xie, Z Y, Xu, X F, Yang, D T, Yordanov, Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Institut de Physique Nucléaire d'Orsay (IPNO), 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), Athanasakis, Michail, and 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)

Subjects

isotoopit, Nuclear Theory, nucl-th, [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], tiheysfunktionaaliteoria, FOS: Physical sciences, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], nucl-ex, Nuclear Theory (nucl-th), Nuclear Physics - Theory, Nuclear Physics - Experiment, Präzisionsexperimente - Abteilung Blaum, Nuclear Experiment (nucl-ex), ydinfysiikka, nikkeli, Nuclear Experiment

Abstract

Collinear laser spectroscopy is performed on the nickel isotopes Ni58-68,70, using a time-resolved photon counting system. From the measured isotope shifts, nuclear charge radii Rc are extracted and compared to theoretical results. Three ab initio approaches all employ, among others, the chiral interaction NNLOsat, which allows an assessment of their accuracy. We find agreement with experiment in differential radii δ⟨rc2⟩ for all employed ab initio methods and interactions, while the absolute radii are consistent with data only for NNLOsat. Within nuclear density functional theory, the Skyrme functional SV-min matches experiment more closely than the Fayans functional Fy(Δr,HFB). Collinear laser spectroscopy is performed on the nickel isotopes $^{58-68,70}$Ni, using a time-resolved photon counting system. From the measured isotope shifts, nuclear charge radii $R_c$ are extracted and compared to theoretical results. Three ab initio approaches all employ, among others, the chiral interaction NNLO$_{\rm sat}$, which allows an assessment of their accuracy. We find agreement with experiment in differential radii $\delta \left\langle r_\mathrm{c}^2 \right\rangle$ for all employed ab initio methods and interactions, while the absolute radii are consistent with data only for NNLO$_{\rm sat}$. Within nuclear density functional theory, the Skyrme functional SV-min matches experiment more closely than the Fayans functional Fy($\Delta r$,HFB).

Published

2022

16. Electromagnetic moments of scandium isotopes and $N=28$ isotones in the distinctive $0f_{7/2}$ orbit

Author

S.W. Bai, Á. Koszorús, B.S. Hu, X.F. Yang, J. Billowes, C.L. Binnersley, M.L. Bissell, K. Blaum, P. Campbell, B. Cheal, T.E. Cocolios, R.P. de Groote, C.S. Devlin, K.T. Flanagan, R.F. Garcia Ruiz, H. Heylen, J.D. Holt, A. Kanellakopoulos, J. Krämer, V. Lagaki, B. Maaß, S. Malbrunot-Ettenauer, T. Miyagi, R. Neugart, G. Neyens, W. Nörtershäuser, L.V. Rodríguez, F. Sommer, A.R. Vernon, S.J. Wang, X.B. Wang, S.G. Wilkins, Z.Y. Xu, and C.X. Yuan

Subjects

Nuclear and High Energy Physics, Nuclear Theory, nucl-th, Collinear laser spectroscopy, FOS: Physical sciences, Astronomy & Astrophysics, nucl-ex, Computer Science::Digital Libraries, Physics, Particles & Fields, Electromagnetic moments, Nuclear Theory (nucl-th), Nuclear Physics - Experiment, Nuclear Experiment (nucl-ex), Nuclear Experiment, isotoopit, Science & Technology, Physics, NUCLEAR MOMENTS, QUADRUPOLE-MOMENTS, Physics, Nuclear, Nucleon-nucleon correlation, Nuclear Physics - Theory, Physical Sciences, SHELL-MODEL, COLLECTIVITY, Präzisionsexperimente - Abteilung Blaum, ydinfysiikka, skandium, Ab-initio calculation

Abstract

The electric quadrupole moment of $^{49}$Sc was measured by collinear laser spectroscopy at CERN-ISOLDE to be $Q_{\rm s}=-0.159(8)$ $e$b, and a nearly tenfold improvement in precision was reached for the electromagnetic moments of $^{47,49}$Sc. The single-particle behavior and nucleon-nucleon correlations are investigated with the electromagnetic moments of $Z=21$ isotopes and $N=28$ isotones as valence neutrons and protons fill the distinctive $0f_{7/2}$ orbit, respectively, located between magic numbers, 20 and 28. The experimental data are interpreted with shell-model calculations using an effective interaction, and ab-initio valence-space in-medium similarity renormalization group calculations based on chiral interactions. These results highlight the sensitivity of nuclear electromagnetic moments to different types of nucleon-nucleon correlations, and establish an important benchmark for further developments of theoretical calculations., Comment: Accepted by Physics Letters B (2022)

Published

2022

17. Proton-neutron pairing correlations in the self-conjugate nucleus 42Sc

Author

Iain Moore, Á. Koszorús, J. D. Holt, S. Kelly, Annika Voss, Tommi Eronen, Ari Jokinen, Sami Rinta-Antila, Mark Bissell, R. Beerwerth, C. S. Devlin, S. Geldhof, C. Wraith, T. Miyagi, H. Heylen, Bradley Cheal, Paul Campbell, L. J. Vormawah, and Stephan Fritzsche

Subjects

CHARGE RADII, Nuclear and High Energy Physics, Proton, Collinear laser spectroscopy, QC1-999, spektroskopia, Nuclear Theory, FOS: Physical sciences, Astronomy & Astrophysics, nucl-ex, 01 natural sciences, Physics, Particles & Fields, Charge radius, 0103 physical sciences, Physics::Atomic and Molecular Clusters, ddc:530, Neutron, Nuclear Physics - Experiment, Nuclear Experiment (nucl-ex), 010306 general physics, Nuclear Experiment, Physics, isotoopit, Science & Technology, Isotope, Magnetic moment, 010308 nuclear & particles physics, Proton-neutron pairing, TABLE, Hyperfine structure and isotope shift, Atomic mass, 3. Good health, Physics, Nuclear, Pairing, Physical Sciences, SHELL-MODEL, Atomic physics, ydinfysiikka, Ground state, skandium

Abstract

Collinear laser spectroscopy of the N=Z=21 self-conjugate nucleus 42Sc has been performed at the JYFL IGISOL IV facility in order to determine the change in nuclear mean-square charge radius between the Iπ=0+ ground state and the Iπ=7+ isomer via the measurement of the 42g,42mSc isomer shift. New multi-configurational Dirac-Fock calculations for the atomic mass shift and field shift factors have enabled a recalibration of the charge radii of the 42−46Sc isotopes which were measured previously. While consistent with the treatment of proton-neutron, proton-proton and neutron-neutron pairing on an equal footing, the reduction in size for the isomer is observed to be of a significantly larger magnitude than that expected from both shell-model and ab-initio calculations. The measured nuclear magnetic dipole moment and electric quadruple moment, on the other hand, are in good agreement with simple empirical estimates and shell-model calculations. Collinear laser spectroscopy of the $N=Z=21$ self-conjugate nucleus $^{42}$Sc has been performed at the JYFL IGISOL IV facility in order to determine the change in nuclear mean-square charge radius between the $I^{\pi}=0^{+}$ ground state and the $I^{\pi}=7^{+}$ isomer via the measurement of the $^{42\mathrm{g},42\mathrm{m}}$Sc isomer shift. New multi-configurational Dirac-Fock calculations for the atomic mass shift and field shift factors have enabled a recalibration of the charge radii of the $^{42-46}$Sc isotopes which were measured previously. While consistent with the treatment of proton-neutron, proton-proton and neutron-neutron pairing on an equal footing, the reduction in size for the isomer is observed to be of a significantly larger magnitude than that expected from both shell model and ab-initio calculations.

Published

2021

18. Probing the single-particle behavior above Sn132 via electromagnetic moments of Sb133,134 and N=82 isotones

Author

Xiaofei Yang, Zhengyu Xu, A. Gargano, A. Kanellakopoulos, P. Imgram, S. Lechner, Gerda Neyens, Mark Bissell, R. F. Garcia Ruiz, C. S. Devlin, P. Plattner, H. Heylen, Klaus Blaum, Á. Koszorús, L. V. Rodríguez, G. De Gregorio, D. T. Yordanov, Bradley Cheal, S. Malbrunot-Ettenauer, Rainer Neugart, and Wilfried Nörtershäuser

Subjects

Physics, Valence (chemistry), Magnetic moment, Proton, 010308 nuclear & particles physics, Nuclear Theory, Coupling (probability), 01 natural sciences, 0103 physical sciences, Quadrupole, Neutron, Sensitivity (control systems), Atomic physics, 010306 general physics, Ground state

Abstract

Magnetic and quadrupole moments of the $7/{2}^{+}$ ground state in $^{133}\mathrm{Sb}$ and the $({7}^{\ensuremath{-}})$ isomer in $^{134}\mathrm{Sb}$ have been measured by collinear laser spectroscopy to investigate the single-particle behavior above the doubly magic nucleus $^{132}\mathrm{Sn}$. The comparison of experimental data of the $7/{2}^{+}$ states in $^{133}\mathrm{Sb}$ and neighboring $N=82$ isotones to shell-model calculations reveals the sensitivity of magnetic moments to the splitting of the spin-orbit partners $\ensuremath{\pi}0{g}_{9/2}$ and $\ensuremath{\pi}0{g}_{7/2}$ across the proton shell closure at $Z=50$. In contrast, quadrupole moments of the $N=82$ isotones are insensitive to cross-shell excitations, but require the full proton model space from $Z=50\phantom{\rule{4.pt}{0ex}}\text{to}\phantom{\rule{4.pt}{0ex}}82$ for their accurate description. In fact, the linear trend of the quadrupole moment follows approximately the expectation of the seniority scheme when filling the $\ensuremath{\pi}0{g}_{7/2}$ orbital. As far as the isomer in $^{134}\mathrm{Sb}$ is concerned, its electromagnetic moments can be perfectly described by the additivity rule employing the moments of $^{133}\mathrm{Sb}$ and $^{133}\mathrm{Sn}$, respectively. These findings agree with shell-model calculations and thus confirm the weak coupling between the valence proton and neutron in $^{134}\mathrm{Sb}$.

Published

2021

19. High-resolution laser spectroscopy of Al27–32

Author

Livio Filippin, C. S. Devlin, Bradley Cheal, S. Malbrunot-Ettenauer, S. Kaufmann, L. Xie, L. V. Rodríguez, J. D. Holt, T. Miyagi, W. Gins, Xiaofei Yang, Wilfried Nörtershäuser, C. Gorges, Mark Bissell, R. Sánchez, H. Heylen, Klaus Blaum, Kristian König, Gerda Neyens, Felix Sommer, Á. Koszorús, Ziye Xu, Deyan Yordanov, Rainer Neugart, Michel Godefroid, A. Kanellakopoulos, and R. F. Garcia Ruiz

Subjects

Physics, Magnetic moment, 010308 nuclear & particles physics, Charge (physics), 7. Clean energy, 01 natural sciences, Spectral line, Charge radius, 0103 physical sciences, Quadrupole, Atomic physics, 010306 general physics, Spectroscopy, Magnetic dipole, Hyperfine structure

Abstract

Hyperfine spectra of $^\text{27-32}$Al ($Z=13$) have been measured at the ISOLDE-CERN facility via collinear laser spectroscopy using the $3s^23p\ ^2\text{P}^\text{o} _{3/2}\rightarrow 3s^24s\ ^2\text{S}_{1/2}$ atomic transition. For the first time, mean-square charge radii of radioactive aluminum isotopes have been determined alongside the previously unknown magnetic dipole moment of $^{29}$Al and electric quadrupole moments of $^{29,30}$Al. A potentially reduced charge radius at $N=19$ may suggest an effect of the $N=20$ shell closure, which is visible in the Al chain, contrary to other isotopic chains in the $sd$ shell. The experimental results are compared to theoretical calculations in the framework of the valence-space in-medium similarity renormalization group using multiple sets of two and three-nucleon forces from chiral effective field theory. While the trend of experimental magnetic dipole and electric quadrupole moments is well reproduced, the absolute values are underestimated by theory, consistent with earlier studies. Moreover, both the scale and trend of the charge radii appear to be very sensitive to the chosen interaction.

Published

2021

20. An accuracy benchmark of the MIRACLS apparatus: Conventional, single-passage collinear laser spectroscopy inside a MR-ToF device

Author

C. Kanitz, Marco Rosenbusch, F.M. Maier, H. Heylen, M. Vilen, P. Plattner, Robert Wolf, Frank Wienholtz, Paul Fischer, S. Lechner, V. Lagaki, S. Malbrunot-Ettenauer, I. Belosevic, S. Sels, Lutz Schweikhard, and Wilfried Nörtershäuser

Subjects

Nuclear and High Energy Physics, Accuracy and precision, Technology, MR-ToF device, Short-lived radionuclides, Collinear laser spectroscopy, 01 natural sciences, ISOLDE, law.invention, Ion, Physics, Particles & Fields, TRAP, law, 0103 physical sciences, ION, 010306 general physics, Spectroscopy, Nuclear Science & Technology, Instrumentation, Isotopes of magnesium, Instruments & Instrumentation, Line (formation), Physics, Science & Technology, 010308 nuclear & particles physics, ISOBAR SEPARATOR, Laser, Reflection (mathematics), Physics, Nuclear, MIRACLS, Physical Sciences, ISOTOPES, Ion trap, Atomic physics, CHARGE, MASS MEASUREMENTS

Abstract

Collinear laser spectroscopy (CLS) has been performed in a multi-reflection time-of-flight (MR-ToF) device operated in single-pass mode, i.e., without confining the ions in the ion trap. While our Multi Ion Reflection Apparatus for Collinear Laser Spectroscopy (MIRACLS) aims to increase the CLS sensitivity by storing ions in the MR-ToF device, the present work characterises conventional single-passage CLS as a preparatory step for the upcoming comparison with MIRACLS’ multi-pass mode. To this end, the isotope shift in the 3 s 2 S 1 / 2 → 3 p 2 P 3 / 2 transition (D2 line) between ions of the magnesium isotopes 24Mg and 26Mg has been measured under varying experimental conditions. Our result agrees with the precise literature value. Associated studies of systematic uncertainties demonstrate a measurement accuracy of better than 20 MHz in this new apparatus. This value will serve as the reference for analogous studies to be performed in the MIRACLS approach in which ions are trapped in the MR-ToF device for thousands of revolutions and probed by the spectroscopy laser during each passage.

Published

2021

21. Structural trends in atomic nuclei from laser spectroscopy of tin

Author

Stefan E. Schmidt, Zhengyu Xu, Gerda Neyens, A. Kanellakopoulos, Witold Nazarewicz, S. Kaufmann, Mark Bissell, Sacha Schiffmann, L. Wehner, B. Maaß, W. Gins, Per Jönsson, Bradley Cheal, S. Malbrunot-Ettenauer, Jörgen Ekman, Zoltán Harman, Rodolfo Sánchez, Christoph H. Keitel, Natalia S. Oreshkina, L. V. Rodríguez, Paul-Gerhard Reinhard, Klaus Blaum, Jacek Bieron, Michel Godefroid, L. Xie, Christian Gorges, Rainer Neugart, Asimina Papoulia, Pekka Pyykkö, Wilfried Nörtershäuser, Gediminas Gaigalas, Xiaofei Yang, Ronald Fernando Garcia Ruiz, Dimiter L. Balabanski, Stefan Sailer, S. Lechner, V. Lagaki, Georgi Georgiev, H. Heylen, Deyan T. Yordanov, C. Wraith, 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), Centre de Sciences Nucléaires et de Sciences de la Matière (CSNSM), Balabanski, DL, Bieroń, J, Bissell, ML, Blaum, K, Cheal, B, Ekman, J, Gaigalas, G, Garcia Ruiz, RF, Georgiev, G, Gins, W, Godefroid, MR, Gorges, C, Harman, Z, Heylen, H, Jönsson, P, Kanellakopoulos, Anastasios, Kaufmann, S, Keitel, CH, Lagaki, V, Lechner, S, Maaß, B, Malbrunot-Ettenauer, S, Nazarewicz, W, Neugart, R, Neyens, G, Nörtershäuser, W, Oreshkina, NS, Papoulia, A, Pyykkö, P, Reinhard, P-G, Sailer, S, Sánchez, R, Schiffmann, S, Schmidt, S, Wehner, L, Wraith, C, Xie, L, Xu, ZY, Yang, XF, Department of Chemistry, 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

CHARGE RADII, Materials science, Proton, Atom and Molecular Physics and Optics, Research group Z. Harman – Division C. H. Keitel, 116 Chemical sciences, Nuclear Theory, Electron shell, General Physics and Astronomy, chemistry.chemical_element, lcsh:Astrophysics, Atomic structure calculations, nuclear structure calculations, the neutral atom of Sn, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, 114 Physical sciences, Effective nuclear charge, 0103 physical sciences, Isotopes of tin, lcsh:QB460-466, ISOTOPE SHIFT, ELEMENTS, ddc:530, Physics::Atomic Physics, 010306 general physics, Spectroscopy, Nuclear Experiment, Hyperfine structure, 010308 nuclear & particles physics, lcsh:QC1-999, 3. Good health, QUADRUPOLE-MOMENTS, chemistry, GAS, Atomic nucleus, Physics::Accelerator Physics, Atom- och molekylfysik och optik, Atomic physics, Präzisionsexperimente - Abteilung Blaum, Tin, lcsh:Physics

Abstract

Communications Physics 3(1), 107 (2020). doi:10.1038/s42005-020-0348-9, Published by Springer Nature, London

Published

2020

22. Nuclear moments of germanium isotopes near N=40

Author

L. Xie, Mark Bissell, W. Nörtershäuser, Tim Ratajczyk, S. W. Bai, Klaus Blaum, G. Neyens, Bradley Cheal, S. Malbrunot-Ettenauer, M. L. Reitsma, S. J. Wang, S. Lechner, Xiaofei Yang, A. Kanellakopoulos, Anastasia Borschevsky, R. F. Garcia Ruiz, H. Heylen, Rainer Neugart, S. Kaufmann, L. V. Rodríguez, S. Sels, Deyan Yordanov, J. Billowes, Á. Koszorús, Ziye Xu, C. S. Devlin, Kristian König, Institut de Physique Nucléaire d'Orsay (IPNO), 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), and High-Energy Frontier

Subjects

Isotopes of germanium, [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], chemistry.chemical_element, Germanium, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Nuclear Structure, 01 natural sciences, 7. Clean energy, 0103 physical sciences, Atom, Physics::Atomic Physics, 010306 general physics, Spectroscopy, Wave function, Hyperfine structure, Physics, Science & Technology, 010308 nuclear & particles physics, Nickel, Physics, Nuclear, chemistry, Quadrupole, Physical Sciences, Atomic physics, Präzisionsexperimente - Abteilung Blaum

Abstract

Collinear laser spectroscopy measurements were performed on $^{69,71,73}$Ge isotopes ($Z = 32$) at ISOLDE-CERN. The hyperfine structure of the $4s^2 4p^2 \, ^3P_1 \rightarrow 4s^2 4p 5s \, ^3P_1^o$ transition of the germanium atom was probed with laser light of 269 nm, produced by combining the frequency-mixing and frequency-doubling techniques. The hyperfine fields for both atomic levels were calculated using state-of-the-art atomic relativistic Fock-space coupled-cluster calculations. A new $^{73}$Ge quadrupole moment was determined from these calculations and previously measured precision hyperfine parameters, yielding $Q_{\rm s}$ = $-$0.198(4) b, in excellent agreement with the literature value from molecular calculations. The moments of $^{69}$Ge have been revised: $\mu$ = +0.920(5) $\mu_{N}$ and $Q_{\rm s}$= +0.114(8) b, and those of $^{71}$Ge have been confirmed. The experimental moments around $N = 40$ are interpreted with large-scale shell-model calculations using the JUN45 interaction, revealing rather mixed wave function configurations, although their $g$-factors are lying close to the effective single-particle values. Through a comparison with neighboring isotones, the structural change from the single-particle nature of nickel to deformation in germanium is further investigated around $N = 40$.

Published

2020

23. Charge Radius of the Short-Lived Ni68 and Correlation with the Dipole Polarizability

Author

S. Kaufmann, Mirko Miorelli, W. Gins, L. V. Rodríguez, Bradley Cheal, R. F. Garcia Ruiz, S. Malbrunot-Ettenauer, Deyan Yordanov, Klaus Blaum, L. Xie, J. Billowes, Gerda Neyens, C. Wraith, Wilfried Nörtershäuser, L. Wehner, H. Heylen, A. Kanellakopoulos, R. Sánchez, Sonia Bacca, S. Sailer, J. Simonis, Tim Ratajczyk, Ziye Xu, C. Gorges, Mark Bissell, Xiaofei Yang, Achim Schwenk, Rainer Neugart, and Gaute Hagen

Subjects

Physics, Isotope, Nuclear Theory, Nuclear structure, General Physics and Astronomy, Radius, 01 natural sciences, Effective nuclear charge, Dipole, Polarizability, Charge radius, 0103 physical sciences, Neutron, Physics::Atomic Physics, Atomic physics, Nuclear Experiment, 010306 general physics

Abstract

We present the first laser spectroscopic measurement of the neutron-rich nucleus ^{68}Ni at the N=40 subshell closure and extract its nuclear charge radius. Since this is the only short-lived isotope for which the dipole polarizability α_{D} has been measured, the combination of these observables provides a benchmark for nuclear structure theory. We compare them to novel coupled-cluster calculations based on different chiral two- and three-nucleon interactions, for which a strong correlation between the charge radius and dipole polarizability is observed, similar to the stable nucleus ^{48}Ca. Three-particle-three-hole correlations in coupled-cluster theory substantially improve the description of the experimental data, which allows to constrain the neutron radius and neutron skin of ^{68}Ni.

Published

2020

24. The nuclear magnetic moment of 208Bi and its relevance for a test of bound-state strong-field QED

Author

Xiaofei Yang, Wilfried Nörtershäuser, I. I. Tupitsyn, R. F. Garcia Ruiz, Leonid V. Skripnikov, Mark Bissell, V. M. Shabaev, Stefan E. Schmidt, S. Sailer, Andrey V. Volotka, Klaus Blaum, J. Billowes, S. Malbrunot-Ettenauer, G. Plunien, H. Heylen, Gerda Neyens, and Geesaman, D. F.

Subjects

Nuclear and High Energy Physics, chemistry.chemical_element, Hyperfine anomaly, 01 natural sciences, Bismuth, 0103 physical sciences, Bound state, Nuclear Physics - Experiment, ddc:530, Physics::Atomic Physics, Laser spectroscopy, 010306 general physics, Spectroscopy, Hyperfine structure, Quantum electrodynamics, Physics, Specific difference, 010308 nuclear & particles physics, Nuclear structure, lcsh:QC1-999, chemistry, Nuclear magnetic moment, Präzisionsexperimente - Abteilung Blaum, Atomic physics, Anomaly (physics), lcsh:Physics, Order of magnitude

Abstract

Physics letters / B 779, 324 - 330 (2018). doi:10.1016/j.physletb.2018.02.024, Published by North-Holland Publ., Amsterdam

Published

2018

25. First steps in the development of the Multi Ion Reflection Apparatus for Collinear Laser Spectroscopy

Author

Paul Fischer, H. Heylen, S. Lechner, F.M. Maier, V. Lagaki, Robert Wolf, P. Plattner, Wilfried Nörtershäuser, Lutz Schweikhard, Frank Wienholtz, Marco Rosenbusch, S. Malbrunot-Ettenauer, and S. Sels

Subjects

Nuclear and High Energy Physics, Materials science, 010308 nuclear & particles physics, business.industry, Photodetection, 01 natural sciences, Ion trapping, Ion, Optics, Bunches, 0103 physical sciences, Reflection (physics), Nuclide, Nuclear Experiment, 010306 general physics, business, Spectroscopy, Instrumentation, Hyperfine structure

Abstract

Collinear laser spectroscopy (CLS) has been combined with the multi-reflection time-of-flight (MR-ToF) technique. To this end, a photodetection system has been implemented at the drift region of a MR-ToF apparatus and a laser beam has been sent along the path of the ions that are stored between the two ion-optical mirrors. The main goal of the present proof-of-principle (PoP) experiments, is the confirmation of the expected increase in sensitivity compared to conventional fluorescence-based CLS due to the repeated probing of the trapped ion bunches. The novel method will be used for the precise measurement of nuclear ground- and isomeric-state properties of exotic nuclei with low production yields at radioactive ion-beam facilities. A significant sensitivity improvement of CLS is expected, depending on the half-life and mass of the nuclide of interest. The status of the PoP setup and future improvements are discussed. Collinear laser spectroscopy (CLS) has been combined with the multi-reflection time-of-flight (MR-ToF) technique. To this end, a photodetection system has been implemented at the drift region of a MR-ToF apparatus and a laser beam has been sent along the path of the ions that are stored between the two ion-optical mirrors. The main goal of the present proof-of-principle (PoP) experiments, is the confirmation of the expected increase in sensitivity compared to conventional fluorescence-based CLS due to the repeated probing of the trapped ion bunches. The novel method will be used for the precise measurement of nuclear ground- and isomeric-state properties of exotic nuclei with low production yields at radioactive ion-beam facilities. A significant sensitivity improvement of CLS is expected, depending on the half-life and mass of the nuclide of interest. The status of the PoP setup and future improvements are discussed.

Published

2020

26. Nuclear charge radii of 62−80Zn and their dependence on cross-shell proton excitations

Author

Bradley Cheal, J. Papuga, Livio Filippin, S. Malbrunot-Ettenauer, Deyan Yordanov, Christian Gorges, R. F. Garcia Ruiz, Juliane Krämer, Wilfried Nörtershäuser, Michel Godefroid, Gediminas Gaigalas, Yusuke Tsunoda, C. Wraith, H. Heylen, K.T. K.T. Flanagan, Takaharu Otsuka, Gerda Neyens, Xiaofei Yang, Magdalena Kowalska, L. K. Grob, Klaus Blaum, Jacek Bieron, Rodolfo Sánchez, Rainer Neugart, L. Xie, Mark Bissell, Pär Göran P. Jönsson, C. Babcock, S. Kaufmann, W. Gins, J. Billowes, 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), 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), and Parnefjord Gustafsson, Fredrik

Subjects

Nuclear and High Energy Physics, Proton, Shell closure, Nuclear Theory, Astronomy & Astrophysics, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], ISOTOPE SHIFTS, 01 natural sciences, 7. Clean energy, Molecular physics, Effective nuclear charge, Physics, Particles & Fields, Ion, Naturvetenskap, 0103 physical sciences, Nuclear Physics - Experiment, ddc:530, Neutron, 010306 general physics, Spectroscopy, Nuclear Experiment, Cumulative effect, Physics, Science & Technology, Isotope, Correlations, 010308 nuclear & particles physics, Nuclear structure, lcsh:QC1-999, Physique atomique et nucléaire, Nuclear deformation, Zinc, Physics, Nuclear, Nuclear charge radii, Physical Sciences, Präzisionsexperimente - Abteilung Blaum, Natural Sciences, lcsh:Physics

Abstract

Nuclear charge radii of 62−80Zn have been determined using collinear laser spectroscopy of bunched ion beams at CERN-ISOLDE. The subtle variations of observed charge radii, both within one isotope and along the full range of neutron numbers, are found to be well described in terms of the proton excitations across the Z=28 shell gap, as predicted by large-scale shell model calculations. It comprehensively explains the changes in isomer-to-ground state mean square charge radii of 69−79Zn, the inversion of the odd-even staggering around N=40 and the odd-even staggering systematics of the Zn charge radii. With two protons above Z=28, the observed charge radii of the Zn isotopic chain show a cumulative effect of different aspects of nuclear structure including single particle structure, shell closure, correlations and deformations near the proposed doubly magic nuclei, 68Ni and 78Ni., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2019

27. Laser Spectroscopy of Neutron-Rich Tin Isotopes: A Discontinuity in Charge Radii across the N=82 Shell Closure

Author

C. Gorges, Mark Bissell, Klaus Blaum, Paul-Gerhard Reinhard, L. Xie, Ziye Xu, D. L. Balabanski, Magda Kowalska, S. Sailer, L. Wehner, S. Kaufmann, Georgi Georgiev, Deyan Yordanov, W. Gins, L. V. Rodríguez, R. F. Garcia Ruiz, Stefan E. Schmidt, H. Heylen, Witold Nazarewicz, Rainer Neugart, A. Kanellakopoulos, Xiaofei Yang, Wilfried Nörtershäuser, Gerda Neyens, B. Maaß, Bradley Cheal, S. Malbrunot-Ettenauer, S. Lechner, V. Lagaki, C. Wraith, R. Sánchez, Helmholtz zentrum für Schwerionenforschung GmbH (GSI), Centre de Sciences Nucléaires et de Sciences de la Matière (CSNSM), 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), Instituut voor Kern- en Stralingsfysica (K.U. LEUVEN), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Landessternwarte Königstuhl [ZAH] (LSW), Universität Heidelberg [Heidelberg], Institute of Theoretical Physics [Warsaw], Faculty of Physics [Warsaw] (FUW), University of Warsaw (UW)-University of Warsaw (UW), Instituut voor Kern-en Stralingsfysica (IKS), Institute for Tropospheric Research (IFT), and 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)

Subjects

Physics, Multidisciplinary, General Physics and Astronomy, chemistry.chemical_element, LINE, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Effective nuclear charge, FORCE, Charge radius, DEPENDENCE, MOMENTS, 0103 physical sciences, Isotopes of tin, Neutron, ddc:530, Nuclear Physics - Experiment, 010306 general physics, Spectroscopy, Nuclear Experiment, ComputingMilieux_MISCELLANEOUS, Physics, Science & Technology, NUCLEI, ddc, chemistry, Pairing, Physical Sciences, Atomic physics, Tin, Nuclear density

Abstract

Physical review letters 122(19), 192502 (2019). doi:10.1103/PhysRevLett.122.192502, Published by APS, College Park, Md.

Published

2019

28. Decay-Assisted Laser Spectroscopy of Neutron-Deficient Francium

Author

K. M. Lynch, J. Billowes, M. L. Bissell, I. Budinčević, T. E. Cocolios, R. P. De Groote, S. De Schepper, V. N. Fedosseev, K. T. Flanagan, S. Franchoo, R. F. Garcia Ruiz, H. Heylen, B. A. Marsh, G. Neyens, T. J. Procter, R. E. Rossel, S. Rothe, I. Strashnov, H. H. Stroke, and K. D. A. Wendt

Subjects

Physics, QC1-999

Abstract

This paper reports on the hyperfine-structure and radioactive-decay studies of the neutron-deficient francium isotopes ^{202–206}Fr performed with the Collinear Resonance Ionization Spectroscopy (CRIS) experiment at the ISOLDE facility, CERN. The high resolution innate to collinear laser spectroscopy is combined with the high efficiency of ion detection to provide a highly sensitive technique to probe the hyperfine structure of exotic isotopes. The technique of decay-assisted laser spectroscopy is presented, whereby the isomeric ion beam is deflected to a decay-spectroscopy station for alpha-decay tagging of the hyperfine components. Here, we present the first hyperfine-structure measurements of the neutron-deficient francium isotopes ^{202–206}Fr, in addition to the identification of the low-lying states of ^{202,204}Fr performed at the CRIS experiment.

Published

2014

29. Quadrupole moments of odd-A 53−63Mn: Onset of collectivity towards N=40

Author

S. M. Lenzi, R. F. Garcia Ruiz, Paul Campbell, Magda Kowalska, B. A. Marsh, L. Xie, Ralf Erik Rossel, Bradley Cheal, S. Malbrunot-Ettenauer, C. Babcock, H. Heylen, Yusuke Tsunoda, W. Geithner, B. Maass, R. Sánchez, Xiaofei Yang, Mark Bissell, Wilfried Nörtershäuser, T. Day Goodacre, Rainer Neugart, Takaharu Otsuka, W. Gins, C. Wraith, Sebastian Rothe, L. K. Grob, D. V. Fedorov, Klaus Blaum, and Gerda Neyens

Subjects

Optical pumping, Nuclear and High Energy Physics, Proton, 01 natural sciences, Ion, Atomic orbital, Metastability, 0103 physical sciences, Nuclear Physics - Experiment, Neutron, ddc:530, Laser spectroscopy, 010306 general physics, Spectroscopy, Nuclear Experiment, Physics, Manganese, 010308 nuclear & particles physics, lcsh:QC1-999, Deformation, Quadrupole, Quadrupole moments, Physics::Accelerator Physics, Atomic physics, Präzisionsexperimente - Abteilung Blaum, lcsh:Physics

Abstract

Physics letters / B 760, 387 - 392 (2016). doi:10.1016/j.physletb.2016.07.016, Published by North-Holland Publ., Amsterdam

Published

2016

30. High-resolution laser spectroscopy with the Collinear Resonance Ionisation Spectroscopy (CRIS) experiment at CERN-ISOLDE

Author

R. F. Garcia Ruiz, Kara Marie Lynch, R. P. de Groote, Kieran Flanagan, Ruohong Li, B. A. Marsh, I. Budinčević, Xiaofei Yang, Mark Bissell, Ralf Erik Rossel, T. Day Goodacre, Shane Wilkins, W. Gins, J. Billowes, Sebastian Rothe, S. Franchoo, Thomas Elias Cocolios, V. N. Fedosseev, G. J. Farooq-Smith, Gerda Neyens, A.J. Smith, T. Kron, H. Henry Stroke, H. Heylen, Klaus Wendt, Institut de Physique Nucléaire d'Orsay (IPNO), and 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)

Subjects

Nuclear and High Energy Physics, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 7. Clean energy, 01 natural sciences, law.invention, Laser linewidth, law, Ionization, 0103 physical sciences, Nuclear Physics - Experiment, Laser spectroscopy, 010306 general physics, Spectroscopy, Instrumentation, Hyperfine structure, Large Hadron Collider, 010308 nuclear & particles physics, Chemistry, Data acquisition, Resonance, Laser, Ion beam purification, Isotope shift, Full width at half maximum, Atomic physics

Abstract

The Collinear Resonance Ionisation Spectroscopy (CRIS) experiment at CERN has achieved high-resolution resonance ionisation laser spectroscopy with a full width at half maximum linewidth of 20(1) MHz for 219;221Fr, and has measured isotopes as short lived as 5 ms with 214Fr. This development allows for greater precision in the study of hyperfine structures and isotope shifts, as well as a higher selectivity of singleisotope, even single-isomer, beams. These achievements are linked with the development of a new laser laboratory and new data-acquisition systems. publisher: Elsevier articletitle: High-resolution laser spectroscopy with the Collinear Resonance Ionisation Spectroscopy (CRIS) experiment at CERN-ISOLDE journaltitle: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms articlelink: http://dx.doi.org/10.1016/j.nimb.2015.11.024 content_type: article copyright: © 2017 The Authors. Published by Elsevier B.V. ispartof: Nuclear Instruments & Methods in Physics Research B vol:376 pages:284-287 ispartof: location:Grand Rapids: MI status: published

Published

2016

31. Fluorescence detection as a new diagnostics tool for electrostatic ion beam traps

Author

S. Malbrunot-Ettenauer, Wilfried Nörtershäuser, S. Lechner, V. Lagaki, Robert Wolf, H. Heylen, Franziska Maier, Marco Rosenbusch, Peter Plattner, Paul Fischer, Frank Wienholtz, S. Sels, and Lutz Schweikhard

Subjects

Nuclear and High Energy Physics, Materials science, Ion beam, 010401 analytical chemistry, Condensed Matter Physics, Tracking (particle physics), 01 natural sciences, Fluorescence, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Ion, Trap (computing), Physics::Plasma Physics, 0103 physical sciences, Reflection (physics), Physics::Accelerator Physics, Nuclear Physics - Experiment, Ion trap, Physical and Theoretical Chemistry, Atomic physics, 010306 general physics, Spectroscopy

Abstract

In the development towards the Multi Ion Reflection Apparatus for Collinear Laser Spectroscopy (MIRACLS), an optical detection region for the observation of fluorescent light is added to an electrostatic ion beam trap (EIBT). In addition to its use for highly sensitive collinear laser spectroscopy, this fluorescence detection is introduced as a diagnostics tool for the study of the ion dynamics inside an EIBT. First measurements of collision-induced fluorescence in an EIBT demonstrate the technique’s diagnostics power by tracking the evolution of an ion bunch’s temporal width over its storage time inside the ion trap. Thereby, the time-focus point of the ion bunch can be determined and the influence of space-charge effects in the EIBT can be investigated. Good qualitative agreement is obtained between the measured trend of temporal widths and the simulations of the ions’ trajectories in the trap. Particularly, the observation of self-bunching on the ion-bunch structure for many simultaneously stored ions is reproduced.

Published

2019

32. Simulations of a proof-of-principle experiment for collinear laser spectroscopy within a multi-reflection time-of-flight device

Author

Paul Fischer, S. Lechner, H. Heylen, V. Lagaki, S. Sels, P. Plattner, Wilfried Nörtershäuser, Frank Wienholtz, S. Malbrunot-Ettenauer, Franziska Maier, and Lutz Schweikhard

Subjects

Physics, Nuclear and High Energy Physics, Large Hadron Collider, 010308 nuclear & particles physics, business.industry, Condensed Matter Physics, Electrostatics, 01 natural sciences, 7. Clean energy, Electromagnetic radiation, Atomic and Molecular Physics, and Optics, Ion, Time of flight, Optics, Bunches, 0103 physical sciences, Reflection (physics), Physical and Theoretical Chemistry, 010306 general physics, business, Spectroscopy

Abstract

For nearly four decades Collinear Laser Spectroscopy (CLS) has been employed to determine ground-state properties of short-lived radionuclides. To extend its reach to the most exotic radionuclides with very low production yields, the novel Multi Ion Reflection Apparatus for CLS (MIRACLS) is currently under development at ISOLDE/CERN. In this setup, 30-keV ion bunches will be trapped between two electrostatic mirrors of a multi-reflection time-of-flight (MR-ToF) device such that the laser beam will probe the ions during each revolution. Thus, the observation time will be extended and the experimental sensitivity will be increased significantly while maintaining the high resolution of conventional CLS. A proof-of-principle experiment is currently being performed to demonstrate the potential of CLS within a low-energy MR-ToF device. Its first experimental results benchmark the validity of ion-optical simulations from the CLS perspective, which will also be applied to MIRACLS’ 30-keV apparatus.

Published

2019

33. Nuclear moments of the low-lying isomeric 1(+) state of Al-34: Investigation on the neutron 1p1h excitation across N=20 in the island of inversion

Author

Takaharu Otsuka, W. Gins, M. Lykiardopoulou, O. Kamalou, T. Sato, T. J. Mertzimekis, J. C. Thomas, R. Orset, Marine Vandebrouck, Koichiro Asahi, Xiaofei Yang, Yutaka Utsuno, R. P. de Groote, Alfredo Poves, H. Heylen, Gerda Neyens, C. Stodel, Naofumi Tsunoda, J. M. Daugas, Hiroki Nishibata, F. Boulay, Ziye Xu, Á. Koszorús, Direction des Applications Militaires (DAM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Grand Accélérateur National d'Ions Lourds (GANIL), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, and Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

β-NMR/NQR, Nuclear reaction, Nuclear and High Energy Physics, beta-NMR/NQR, Nuclear Theory, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Astronomy & Astrophysics, 01 natural sciences, INELASTIC-SCATTERING, Quadrupole moment, Physics, Particles & Fields, g factor, DEFORMATION, [formula omitted]Al, 0103 physical sciences, Nuclear Physics - Experiment, Neutron, β -NMR/NQR, 010306 general physics, Nuclear Experiment, ELECTRIC QUADRUPOLE-MOMENT, Physics, Science & Technology, STABILITY, 010308 nuclear & particles physics, Island of inversion, 34m Al, Resonance, SHELL CLOSURE, lcsh:QC1-999, MAGNETIC-MOMENTS, Physics, Nuclear, SPIN, GROUND-STATE, Quadrupole, Physical Sciences, COLLECTIVITY, Al-34m, Atomic physics, Nucleon, Isotopes of beryllium, lcsh:Physics, Dimensionless quantity

Abstract

The nuclear g factor and quadrupole moment ( Q s ) have been measured for the low-lying isomeric 1 + state of 34Al, using the β-detected nuclear magnetic resonance (β-NMR) and quadrupole resonance (β-NQR) methods. Spin-polarized 34Al isotopes were produced in a one-neutron pickup reaction induced by a 36S beam on a 9Be target at a kinetic energy of 77.5 MeV/nucleon, and were collected with the LISE fragment separator at GANIL. The measured g factor ( | g | in a range of 1.757 ± 0.014 ) and quadrupole moment ( | Q s | = 38 ( 5 ) mb) are in good agreement with shell-model calculations using effective interactions. The similarity between the g factor of 34 m Al and that of 32Al confirms a dominant neutron 2 p 1 h configuration π ( d 5 / 2 ) − 1 ⊗ ν ( d 3 / 2 ) − 1 ( f 7 / 2 ) 2 of 34 m Al. In addition, the enhanced quadrupole moment of 34 m Al relative to that of 32Al suggests that the neutron 1 p 1 h excitation across the N = 20 shell gap introduces extra nucleon–nucleon correlation and deformation.

Published

2018

34. Investigating the large deformation of the 5/2+ isomeric state in Zn73 : An indicator for triaxiality

Author

S. Kaufmann, W. Gins, K. T. Flanagan, J. Papuga, C. Gorges, Mark Bissell, H. Heylen, C. Babcock, R. Sánchez, Bradley Cheal, S. Malbrunot-Ettenauer, Gerda Neyens, Takaharu Otsuka, Klaus Blaum, L. K. Grob, R. F. Garcia Ruiz, Magda Kowalska, Yusuke Tsunoda, Xiaofei Yang, L. Xie, C. Wraith, Rainer Neugart, J. Billowes, Wilfried Nörtershäuser, Juliane Krämer, and Deyan Yordanov

Subjects

Physics, Large deformation, Condensed matter physics, 010308 nuclear & particles physics, 0103 physical sciences, State (functional analysis), 010306 general physics, 01 natural sciences

Published

2018

35. Evidence for Increased neutron and proton excitations between 51−63 Mn

Author

S. M. Lenzi, R. F. Garcia Ruiz, C. Geppert, J. Billowes, Bradley Cheal, Magda Kowalska, H. Heylen, C. Babcock, Rainer Neugart, K. Kreim, Mark Bissell, J. Papuga, Wilfried Nörtershäuser, Paul Campbell, Iain Moore, W. Gins, Gerda Neyens, Deyan T. Yordanov, and Klaus Blaum

Subjects

Nuclear and High Energy Physics, Proton, Nuclear Theory, Magnetic dipole moments, Magnetic dipole moment, Nuclear Physics - Experiment, Neutron, Physics::Atomic Physics, Nuclear Experiment, Wave function, Hyperfine structure, Physics, Manganese, ta114, Spins, Magnetic moment, Spin determination, mangaani, lcsh:QC1-999, Physics::Accelerator Physics, Präzisionsexperimente - Abteilung Blaum, Atomic physics, Ground state, Magnetic dipole, lcsh:Physics

Abstract

The hyperfine structures of the odd-even 51−63Mnatoms (N=26 −38) were measured using bunched beam collinear laser spectroscopy at ISOLDE, CERN. The extracted spins and magnetic dipole moments have been compared to large-scale shell-model calculations using different model spaces and effective interactions. In the case of 61,63Mn, the results show the increasing importance of neutron excitations across the N=40subshell closure, and of proton excitations across the Z=28shell gap. These measurements provide the first direct proof that proton and neutron excitations across shell gaps are playing an important role in the ground state wave functions of the neutron-rich Mn isotopes. publisher: Elsevier articletitle: Evidence for Increased neutron and proton excitations between 51−63Mn journaltitle: Physics Letters B articlelink: http://dx.doi.org/10.1016/j.physletb.2015.09.012 content_type: article copyright: Copyright © 2015 The Authors. Published by Elsevier B.V. ispartof: Physics Letters B vol:750 pages:176-180 status: published

Published

2015

36. Stray-light Suppression for the MIRACLS Proof-of-principle Experiment

Author

S. Sels, H. Heylen, Franziska Maier, Robert Wolf, Paul Fischer, S. Malbrunot-Ettenauer, S. Lechner, Lutz Schweikhard, Wilfried Nörtershäuser, V. Lagaki, Frank Wienholtz, Marco Rosenbusch, P. Plattner, and F. Hummer

Subjects

Physics, Optics, business.industry, Stray light, Proof of concept, General Physics and Astronomy, Nuclear Physics - Experiment, business

Abstract

The Multi-Ion Reflection Apparatus for Collinear Laser Spectroscopy (MIRACLS), currently under development at ISOLDE/CERN, aims to combine the high resolution of fluorescence-based collinear laser spectroscopy (CLS) with a high sensitivity. This will be achieved by confining 30-keV ion bunches in a Multi-Reflection Time-of-Flight (MR-ToF) device which allows laser spectroscopic probing for several thousand times. An MR-ToF setup operating at ∼ 1.5 keV beam energy has been adapted for a proof-of-principle experiment. Thus, efforts had to be undertaken to reduce the laser stray light as the leading source of background of this apparatus, not originally designed for CLS. These measures enabled CLS of $^{24,26}$Mg$^+$ ions in single-path mode, i.e. without ion trapping, which is the reference point to gauge the gain in sensitivity of the MIRACLS technique.

Published

2020

37. The Collinear Resonance Ionization Spectroscopy (CRIS) experimental setup at CERN-ISOLDE

Author

Kara Marie Lynch, H. Heylen, Kieran Flanagan, R.T. Wood, I. Strashnov, J. Papuga, G. S. Simpson, Mustafa Rajabali, R. P. de Groote, Philip M Walker, Klaus Wendt, S. De Schepper, R. F. Garcia Ruiz, I. Budinčević, R.E. Rossel, H.H. Al Suradi, D. Verney, A.J. Smith, B. A. Marsh, T.J. Procter, J. Billowes, Sebastian Rothe, P. J. R. Mason, H. Henry Stroke, Gerda Neyens, V. N. Fedosseev, F. Le Blanc, S. Franchoo, Thomas Elias Cocolios, 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), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), and Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)

Subjects

Nuclear and High Energy Physics, [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], chemistry.chemical_element, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 7. Clean energy, 01 natural sciences, Francium, Ionization, 0103 physical sciences, Physics::Atomic Physics, Laser spectroscopy, Nuclear Experiment, 010306 general physics, Spin (physics), Spectroscopy, Instrumentation, Hyperfine structure, ComputingMilieux_MISCELLANEOUS, Large Hadron Collider, Isotope, Radioactive decay spectroscopy, 010308 nuclear & particles physics, Ion beam purification, Isotope shift, chemistry, 13. Climate action, Physics::Accelerator Physics, Atomic physics, Radioactive decay

Abstract

The CRIS setup at CERN-ISOLDE is a laser spectroscopy experiment dedicated to the high-resolution study of the spin, hyperfine structure and isotope shift of radioactive nuclei with low production rates (a few per second). It combines the Doppler-free resolution of the in-flight collinear geometry with the high detection efficiency of resonant ionisation. A recent commissioning campaign has demonstrated a 1% experimental efficiency, and as low as a 0.001% non-resonant ionisation. The current status of the experiment and its recent achievements with beams of francium isotopes are reported. The first identified systematic effects are discussed. publisher: Elsevier articletitle: The Collinear Resonance Ionization Spectroscopy (CRIS) experimental setup at CERN-ISOLDE journaltitle: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms articlelink: http://dx.doi.org/10.1016/j.nimb.2013.05.088 content_type: article copyright: Copyright © 2013 The Authors. Published by Elsevier B.V. ispartof: Nuclear Instruments & Methods in Physics Research B vol:317 issue:PART B pages:565-569 ispartof: location:Matsue, Japan status: published

Published

2013

38. Evolution of nuclear structure in neutron-rich odd-Zn isotopes and isomers

Author

J. Billowes, F. Nowacki, C. Gorges, Mark Bissell, Michel Godefroid, Deyan Yordanov, L.K. Grob, Klaus Blaum, Jacek Bieron, C. Babcock, Wilfried Nörtershäuser, Yusuke Tsunoda, Gediminas Gaigalas, Xiaofei Yang, J. Krämer, Takaharu Otsuka, R. F. Garcia Ruiz, Michio Honma, J. Papuga, C. Wraith, Rainer Neugart, R. Sánchez, Per Jönsson, Magdalena Kowalska, S. Kaufmann, L. Xie, Bradley Cheal, S. Malbrunot-Ettenauer, H. Heylen, Livio Filippin, W. Gins, Gerda Neyens, Institut Pluridisciplinaire Hubert Curien (IPHC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire d'Orsay (IPNO), 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), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), and 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)

Subjects

Nuclear and High Energy Physics, shell closure, Shell closure, Nuclear Theory, Laser, magnetic dipole moment, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 7. Clean energy, 01 natural sciences, Quadrupole moment, Magnetic dipole moment, Naturvetenskap, 0103 physical sciences, Physics::Atomic and Molecular Clusters, Dalton Nuclear Institute, Nuclear Physics - Experiment, ddc:530, Neutron, Physics::Atomic Physics, 010306 general physics, Nuclear Experiment, Hyperfine structure, Physics, Valence (chemistry), quadrupole moment, Magnetic moment, 010308 nuclear & particles physics, Nuclear structure, Physique atomique et nucléaire, lcsh:QC1-999, laser, Zinc, ResearchInstitutes_Networks_Beacons/dalton_nuclear_institute, Quadrupole, Nuclear magnetic moment, Präzisionsexperimente - Abteilung Blaum, Atomic physics, Natural Sciences, Magnetic dipole, lcsh:Physics

Abstract

Collinear laser spectroscopy was performed on Zn (Z=30) isotopes at ISOLDE, CERN. The study of hyperfine spectra of nuclei across the Zn isotopic chain, N=33–49, allowed the measurement of nuclear spins for the ground and isomeric states in odd-A neutron-rich nuclei up to N=50. Exactly one long-lived (&, SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2017

39. Development of a sensitive setup for laser spectroscopy studies of very exotic calcium isotopes

Author

S. Malbrunot-Ettenauer, H. Heylen, Klaus Blaum, Xiaofei Yang, Magda Kowalska, Rainer Neugart, J. Krämer, R. F. Garcia Ruiz, C. Gorges, Mark Bissell, Peter Lievens, K Koenig, Wilfried Nörtershäuser, Gerda Neyens, S. Kaufmann, W. Gins, Deyan Yordanov, 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

Physics, Nuclear and High Energy Physics, Speichertechnik - Abteilung Blaum, 010308 nuclear & particles physics, hyperfine structure, calcium isotopes, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Isotopes of calcium, nuclear physics, atomic physics, 0103 physical sciences, laser spectroscopy, Physics::Accelerator Physics, Atomic physics, 010306 general physics, Spectroscopy, Atomic vapor laser isotope separation, Nuclear Experiment, Hyperfine structure

Abstract

An experimental setup for sensitive high-resolution measurements of hyperfine structure spectra of exotic calcium isotopes has been developed and commissioned at the COLLAPS beam line at ISOLDE, CERN. The technique is based on the radioactive detection of decaying isotopes after optical pumping and state selective neutralization (ROC) (Vermeeren et al 1992 Phys. Rev. Lett. 68 1679). The improvements and developments necessary to extend the applicability of the experimental technique to calcium isotopes produced at rates as low as few ions s–1 are discussed. Numerical calculations of laser-ion interaction and ion-beam simulations were explored to obtain the optimum performance of the experimental setup. Among the implemented features are a multi-step optical pumping region for sensitive measurements of isotopes with hyperfine splitting, a high-voltage platform for adequate control of low-energy ion beams and simultaneous β-detection of neutralized and remaining ions. journal_title: Journal of Physics G: Nuclear and Particle Physics article_type: paper article_title: Development of a sensitive setup for laser spectroscopy studies of very exotic calcium isotopes copyright_information: © 2017 IOP Publishing Ltd date_received: 2016-11-15 date_accepted: 2017-01-18 date_epub: 2017-02-22 ispartof: Journal of Physics G, Nuclear and Particle Physics vol:44 issue:4 status: published

Published

2017

40. Publisher's Note: Laser and decay spectroscopy of the short-lived isotope Fr214 in the vicinity of the N=126 shell closure [Phys. Rev. C 94 , 054305 (2016)]

Author

R. F. Garcia Ruiz, S. Franchoo, Ralf Erik Rossel, H. Heylen, I. Budinčević, K. T. Flanagan, Mark Bissell, T. Day Goodacre, G. Neyens, R. P. de Groote, J. Billowes, Sebastian Rothe, Ruohong Li, Thomas Elias Cocolios, Xiaofei Yang, B. A. Marsh, K. M. Lynch, Klaus Wendt, H. Henry Stroke, V. N. Fedosseev, G. J. Farooq-Smith, and Shane Wilkins

Subjects

Physics, Nuclear physics, Isotope, law, Closure (topology), Shell (structure), Atomic physics, Laser, Spectroscopy, law.invention

Published

2016

41. Changes in nuclear structure along the Mn isotopic chain studied via charge radii

Author

Bradley Cheal, Ch. Geppert, S. Malbrunot-Ettenauer, H. Heylen, R. Sánchez, D. T. Yordanov, W. Geithner, S. M. Lenzi, R. F. Garcia Ruiz, L. Xie, Takaharu Otsuka, Mark Bissell, W. Noertershaeuser, Iain Moore, Stephan Fritzsche, T. Day Goodacre, Yusuke Tsunoda, Xiaofei Yang, W. Gins, L. K. Grob, J. Billowes, R. Beerwerth, Paul Campbell, Sebastian Rothe, C. Wraith, Ralf Erik Rossel, Magda Kowalska, B. A. Marsh, K. Kreim, J. Bonnard, C. Babcock, Klaus Blaum, J. Papuga, B. Maass, Gerda Neyens, D. V. Fedorov, Rainer Neugart, and Helsinki Institute of Physics

Subjects

Nuclear and High Energy Physics, Field (physics), N=28, FOS: Physical sciences, 114 Physical sciences, 01 natural sciences, Spectral line, 0103 physical sciences, PROGRAM, Nuclear Physics - Experiment, Neutron, Nuclear Experiment (nucl-ex), LASER SPECTROSCOPY, 010306 general physics, Spectroscopy, CALCIUM ISOTOPES, Nuclear Experiment, Hyperfine structure, isotopes, Physics, isotoopit, ta114, 010308 nuclear & particles physics, Nuclear structure, SHIFTS, hyperfine spectra, Order (ring theory), Charge (physics), mangaani, QUADRUPOLE-MOMENTS, nuclear structure, manganese, SHELL-MODEL, laser spectroscopy, NEUTRON, Präzisionsexperimente - Abteilung Blaum, Atomic physics

Abstract

The hyperfine spectra of $^{51,53-64}$Mn were measured in two experimental runs using collinear laser spectroscopy at ISOLDE, CERN. Laser spectroscopy was performed on the atomic $3d^5\ 4s^2\ ^{6}\text{S}_{5/2}\rightarrow 3d^5\ 4s4p\ ^{6}\text{P}_{3/2}$ and ionic $3d^5\ 4s\ ^{5}\text{S}_2 \rightarrow 3d^5\ 4p\ ^{5}\text{P}_3$ transitions, yielding two sets of isotope shifts. The mass and field shift factors for both transitions have been calculated in the multiconfiguration Dirac-Fock framework and were combined with a King plot analysis in order to obtain a consistent set of mean-square charge radii which, together with earlier work on neutron-deficient Mn, allow the study of nuclear structure changes from $N=25$ across $N=28$ up to $N=39$. A clear development of deformation is observed towards $N=40$, confirming the conclusions of the nuclear moments studies. From a Monte Carlo Shell Model study of the shape in the Mn isotopic chain, it is suggested that the observed development of deformation is not only due to an increase in static prolate deformation but also due to shape fluctuations and triaxiality. The changes in mean-square charge radii are well reproduced using the Duflo-Zuker formula except in the case of large deformation., Comment: 9 figures, submitted to PRC

Published

2016

42. Laser and decay spectroscopy of the short-lived isotope Fr214 in the vicinity of the N=126 shell closure

Author

Klaus Wendt, Mark Bissell, Ralf Erik Rossel, V. N. Fedosseev, R. F. Garcia Ruiz, Thomas Elias Cocolios, T. Day Goodacre, H. Heylen, G. J. Farooq-Smith, B. A. Marsh, Kieran Flanagan, Xiaofei Yang, Gerda Neyens, Ruohong Li, Shane Wilkins, J. Billowes, Sebastian Rothe, R. P. de Groote, S. Franchoo, Kara Marie Lynch, H. Henry Stroke, and I. Budinčević

Subjects

Physics, Isotope, 010308 nuclear & particles physics, law, 0103 physical sciences, Shell (structure), Closure (topology), Atomic physics, 010306 general physics, Laser, Spectroscopy, 01 natural sciences, law.invention

Published

2016

43. High-precision quadrupole moment reveals significant intruder component inAl201333ground state

Author

P. Morel, Akihiro Yoshimi, Yoko Ishibashi, Mustafa Rajabali, T. J. Mertzimekis, Alfredo Poves, Yuichi Ichikawa, H. Heylen, L. Caceres, Yutaka Utsuno, Gerda Neyens, Naohiro Yoshida, J. Papuga, J. C. Thomas, Mark Bissell, R. Chevrier, O. Kamalou, Hideki Ueno, M. De Rydt, J. M. Daugas, and C. Stodel

Subjects

Physics, Coupling constant, 010308 nuclear & particles physics, Island of inversion, Nuclear Theory, 01 natural sciences, 0103 physical sciences, Quadrupole, Atomic physics, 010306 general physics, Ground state, Nuclear quadrupole resonance, Wave function, Electric field gradient, Excitation

Abstract

The electric quadrupole moment of the $_{13}^{33}\mathrm{Al}_{20}$ ground state, located at the border of the island of inversion, was obtained using continuous-beam $\ensuremath{\beta}$-detected nuclear quadrupole resonance ($\ensuremath{\beta}$-NQR). From the measured quadrupole coupling constant ${\ensuremath{\nu}}_{Q}=2.31(4)$ MHz in an $\ensuremath{\alpha}\ensuremath{-}{\mathrm{Al}}_{2}{\mathrm{O}}_{3}$ crystal, a precise value for the electric quadrupole moment is extracted: $\left|{Q}_{s}\left(^{33}\mathrm{Al}\right)\right|=141(3)$ mb. A comparison with large-scale shell model calculations shows that $^{33}\mathrm{Al}$ has at least 50% intruder configurations in the ground state wave function, favoring the excitation of two neutrons across the $N=20$ shell gap. $^{33}\mathrm{Al}$ therefore clearly marks the gradual transition north of the deformed Na and Mg nuclei towards the normal $Z\ensuremath{\ge}14$ isotopes.

Published

2016

44. Publisher’s Note: Isomer Shift and Magnetic Moment of the Long-Lived1/2+Isomer inZn493079: Signature of Shape Coexistence nearNi78[Phys. Rev. Lett.116, 182502 (2016)]

Author

W. Nörtershäuser, K. T. Flanagan, J. Kraemer, J. Billowes, Xiaofei Yang, L. Xie, L. K. Grob, R. F. Garcia Ruiz, W. Gins, C. Wraith, R. Sánchez, Bradley Cheal, S. Malbrunot-Ettenauer, Deyan Yordanov, J. Papuga, S. Kaufmann, Klaus Blaum, H. Heylen, Rainer Neugart, G. Neyens, C. Gorges, Mark Bissell, C. Babcock, and Magda Kowalska

Subjects

Physics, Condensed matter physics, Magnetic moment, 010308 nuclear & particles physics, 0103 physical sciences, General Physics and Astronomy, 010306 general physics, Signature (topology), 01 natural sciences

Published

2016

45. Isomer Shift and Magnetic Moment of the Long-Lived1/2+Isomer inZn493079: Signature of Shape Coexistence nearNi78

Author

Xiaofei Yang, J. Billowes, Bradley Cheal, S. Malbrunot-Ettenauer, H. Heylen, L. Xie, L. K. Grob, Klaus Blaum, Gerda Neyens, Deyan Yordanov, J. Kraemer, C. Gorges, Mark Bissell, R. F. Garcia Ruiz, Rainer Neugart, W. Gins, Magda Kowalska, C. Wraith, S. Kaufmann, R. Sánchez, J. Papuga, Wilfried Nörtershäuser, Keiron Flanagan, and C. Babcock

Subjects

Physics, Magnetic moment, 010308 nuclear & particles physics, Excited state, Nuclear Theory, 0103 physical sciences, General Physics and Astronomy, Atomic physics, Nuclear Experiment, 010306 general physics, Signature (topology), 01 natural sciences, Nuclear theory

Abstract

Two different experiments observe nuclei with excited nuclear states that differ in shape from their ground states, so called shape coexistence. These nuclei lie close to the neutron-rich doubly-magic ${}^{78}$Ni region of the nuclear chart.

Published

2016

46. Isomer Shift and Magnetic Moment of the Long-Lived 1/2^{+} Isomer in _{30}^{79}Zn_{49}: Signature of Shape Coexistence near ^{78}Ni

Author

X F, Yang, C, Wraith, L, Xie, C, Babcock, J, Billowes, M L, Bissell, K, Blaum, B, Cheal, K T, Flanagan, R F, Garcia Ruiz, W, Gins, C, Gorges, L K, Grob, H, Heylen, S, Kaufmann, M, Kowalska, J, Kraemer, S, Malbrunot-Ettenauer, R, Neugart, G, Neyens, W, Nörtershäuser, J, Papuga, R, Sánchez, and D T, Yordanov

Abstract

Collinear laser spectroscopy is performed on the _{30}^{79}Zn_{49} isotope at ISOLDE-CERN. The existence of a long-lived isomer with a few hundred milliseconds half-life is confirmed, and the nuclear spins and moments of the ground and isomeric states in ^{79}Zn as well as the isomer shift are measured. From the observed hyperfine structures, spins I=9/2 and I=1/2 are firmly assigned to the ground and isomeric states. The magnetic moment μ (^{79}Zn)=-1.1866(10)μ_{N}, confirms the spin-parity 9/2^{+} with a νg_{9/2}^{-1} shell-model configuration, in excellent agreement with the prediction from large scale shell-model theories. The magnetic moment μ (^{79m}Zn)=-1.0180(12)μ_{N} supports a positive parity for the isomer, with a wave function dominated by a 2h-1p neutron excitation across the N=50 shell gap. The large isomer shift reveals an increase of the intruder isomer mean square charge radius with respect to that of the ground state, δ⟨r_{c}^{2}⟩^{79,79m}=+0.204(6) fm^{2}, providing first evidence of shape coexistence.

Published

2016

47. Combined high-resolution laser spectroscopy and nuclear decay spectroscopy for the study of the low-lying states inFr206,At202, andBi198

Author

R. P. de Groote, T. Day Goodacre, S. Franchoo, Xiaofei Yang, R. F. Garcia Ruiz, V. N. Fedosseev, Gerda Neyens, G. J. Farooq-Smith, B. A. Marsh, H. Henry Stroke, Ruohong Li, Shane Wilkins, Ralf Erik Rossel, Sebastian Rothe, Kieran Flanagan, Thomas Elias Cocolios, I. Budinčević, Kara Marie Lynch, H. Heylen, Mark Bissell, Klaus Wendt, and J. Billowes

Subjects

Physics, Isotope, 010308 nuclear & particles physics, Nuclear state, High resolution, chemistry.chemical_element, 01 natural sciences, 7. Clean energy, Francium, Nuclear physics, chemistry, 0103 physical sciences, Resonance ionization, Physics::Atomic and Molecular Clusters, Physics::Atomic Physics, Atomic physics, Nuclear Experiment, 010306 general physics, Spectroscopy, Hyperfine structure, Radioactive decay

Abstract

High-resolution laser spectroscopy was performed on $^{206}\mathrm{Fr}$ with the collinear resonance ionization spectroscopy (CRIS) experiment at CERN-ISOLDE. The hyperfine structure and isotope shift of the ground, first isomeric and second isomeric states were measured. The hyperfine components were unambiguously assigned to each nuclear state by means of laser-assisted nuclear decay spectroscopy. The branching ratios in the $\ensuremath{\alpha}$ decay of $^{206}\mathrm{Fr}$ and $^{202}\mathrm{At}$ were also measured for the first time with isomerically purified beams. The extracted hindrance factors allow determination of the spin of the ground, first isomeric, and second isomeric states in $^{202}\mathrm{At}$ and $^{198}\mathrm{Bi}$.

Published

2016

48. Combined high-resolution laser spectroscopy and nuclear decay spectroscopy for the study of the low-lying states in Fr 206 , At 202

Author

K. M. Lynch, T. E. Cocolios, J. Billowes, M. L. Bissell, I. Budinčević, T. Day Goodacre, R. P. de Groote, G. J. Farooq-Smith, V. N. Fedosseev, K. T. Flanagan, S. Franchoo, R. F. Garcia Ruiz, H. Heylen, R. Li, B. A. Marsh, G. Neyens, R. E. Rossel, S. Rothe, H. H. Stroke, K. D. A. Wendt, S. G. Wilkins, X. Yang

Published

2016

49. Spins and magnetic moments ofMn58,60,62,64ground states and isomers

Author

Deyan T. Yordanov, Gerda Neyens, C. Babcock, Mark Bissell, Klaus Blaum, K. Kreim, Rainer Neugart, J. Billowes, W. Gins, Wilfried Nörtershäuser, Magda Kowalska, Ch. Geppert, Paul Campbell, J. Papuga, Bradley Cheal, Iain Moore, H. Heylen, S. M. Lenzi, and R. F. Garcia Ruiz

Subjects

Physics, Nuclear and High Energy Physics, Magnetic moment, Spins, Neutron number, Neutron, Atomic physics, Nuclear Experiment, Ground state, Spin (physics), 7. Clean energy, Hyperfine structure, Resonance (particle physics)

Abstract

The odd-odd $^{54,56,58,60,62,64}\mathrm{Mn}$ isotopes ($Z=25$) were studied using bunched-beam collinear laser spectroscopy at ISOLDE, CERN. From the measured hyperfine spectra the spins and magnetic moments of Mn isotopes up to $N=39$ were extracted. The previous tentative ground state spin assignments of $^{58,60,62,64}\mathrm{Mn}$ are now firmly determined to be $I=1$ along with an $I=4$ assignment for the isomeric states in $^{58,60,62}\mathrm{Mn}$. The $I=1$ magnetic moments show a decreasing trend with increasing neutron number while the $I=4$ moments remain quite constant between $N=33$ and $N=37$. The results are compared to large-scale shell-model calculations using the GXPF1A and LNPS effective interactions. The excellent agreement of the ground state moments with the predictions from the LNPS calculations illustrates the need for an increasing amount of proton excitations across $Z=28$ and neutron excitations across $N=40$ in the ground state wave functions from $N=37$ onwards.

Published

2015

50. Use of a Continuous Wave Laser and Pockels Cell for Sensitive High-Resolution Collinear Resonance Ionization Spectroscopy

Author

B. A. Marsh, Kieran Flanagan, J. Billowes, Xiaofei Yang, R. F. Garcia Ruiz, Gerda Neyens, V. N. Fedosseev, Sebastian Rothe, H. H. Stroke, Ruohong Li, G. J. Farooq-Smith, Ralf Erik Rossel, Shane Wilkins, R. P. de Groote, Thomas Elias Cocolios, Kara Marie Lynch, S. Franchoo, Klaus Wendt, H. Heylen, I. Budinčević, Mark Bissell, Institut de Physique Nucléaire d'Orsay (IPNO), and 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)

Subjects

Physics, 010308 nuclear & particles physics, General Physics and Astronomy, chemistry.chemical_element, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Laser, 7. Clean energy, 01 natural sciences, Pockels effect, Francium, Ion, law.invention, Nuclear magnetic resonance, chemistry, Orders of magnitude (time), law, 0103 physical sciences, Quadrupole, Continuous wave, Nuclear Physics - Experiment, Atomic physics, 010306 general physics, Spectroscopy

Abstract

New technical developments have led to a 2 orders of magnitude improvement of the resolution of the collinear resonance ionization spectroscopy (CRIS) experiment at ISOLDE, CERN, without sacrificing the high efficiency of the CRIS technique. Experimental linewidths of 20(1) MHz were obtained on radioactive beams of francium, allowing us for the first time to determine the electric quadrupole moment of the short lived [t1/2=22.0(5) ms]219Fr Qs=−1.21(2) eb, which would not have been possible without the advantages offered by the new method. This method relies on a continuous-wave laser and an external Pockels cell to produce narrow-band light pulses, required to reach the high resolution in two-step resonance ionization. Exotic nuclei produced at rates of a few hundred ions/s can now be studied with high resolution, allowing detailed studies of the anchor points for nuclear theories. ispartof: Physical Review Letters vol:115 issue:13 pages:1-6 ispartof: location:United States status: published

Published

2015