Your search keyword '"Kleinig, W."' showing total 27 results

1. Microscopic analysis of low-energy spin and orbital magnetic dipole excitations in deformed nuclei

Author

Nesterenko, V. O., Vishnevskiy, P. I., Kvasil, J., Repko, A., and Kleinig, W.

Subjects

Nuclear Theory

Abstract

A low-energy magnetic dipole $(M1)$ spin-scissors resonance (SSR) located just below the ordinary orbital scissors resonance (OSR) was recently predicted in deformed nuclei within the Wigner Function Moments (WFM) approach. We analyze this prediction using fully self-consistent Skyrme Quasiparticle Random Phase Approximation (QRPA) method. Skyrme forces SkM*, SVbas and SG2 are implemented to explore SSR and OSR in $^{160,162,164}$Dy and $^{232}$Th. Accuracy of the method is justified by a good description of M1 spin-flip giant resonance. The calculations show that isotopes $^{160,162,164}$Dy indeed have at 1.5-2.4 MeV (below OSR) $I^{\pi}K=1^+1$ states with a large $M1$ spin strength ($K$ is the projection of the total nuclear moment to the symmetry z-axis). These states are almost fully exhausted by $pp[411\uparrow, 411\downarrow]$ and $nn[521\uparrow, 521\downarrow]$ spin-flip configurations corresponding to $pp[2d_{3/2}, 2d_{5/2}]$ and $nn[2f_{5/2}, 2f_{7/2}]$ structures in the spherical limit. So the predicted SSR is actually reduced to low-orbital (l=2,3) spin-flip states. Following our analysis and in contradiction with WFM spin-scissors picture, deformation is not the principle origin of the low-energy spin $M1$ states but only a factor affecting their features. The spin and orbital strengths are generally mixed and exhibit the interference: weak destructive in SSR range and strong constructive in OSR range. In $^{232}$Th, the $M1$ spin strength is found very small. Two groups of $I^{\pi}=1^+$ states observed experimentally at 2.4-4 MeV in $^{160,162,164}$Dy and at 2-4 MeV in $^{232}$Th are mainly explained by fragmentation of the orbital strength. Distributions of nuclear currents in QRPA states partly correspond to the isovector orbital-scissors flow but not to spin-scissors one., Comment: 15 pages, 13 figures

Published

2021

2. Fine Structure of the Isovector Giant Dipole Resonance in $^{142-150}$Nd and $^{152}$Sm

Author

Donaldson, L. M., Carter, J., von Neumann-Cosel, P., Nesterenko, V. O., Neveling, R., Reinhard, P. -G., Usman, I. T., Adsley, P., Bertulani, C. A., Brümmer, J. W., Buthelezi, E. Z., Cooper, G. R. J., Fearick, R. W., Förtsch, S. V., Fujita, H., Fujita, Y., Jingo, M., Kheswa, N. Y., Kleinig, W., Kureba, C. O., Kvasil, J., Latif, M., Li, K. C. W., Mira, J. P., Nemulodi, F., Papka, P., Pellegri, L., Pietralla, N., Ponomarev, V. Yu., Rebeiro, B., Richter, A., Shirikova, N. Yu., Sideras-Haddad, E., Sushkov, A. V., Smit, F. D., Steyn, G. F., Swartz, J. A., and Tamii, A.

Subjects

Nuclear Experiment

Abstract

Background: Inelastic proton scattering at energies of a few hundred MeV and very-forward angles including $0^\circ$ has been established as a tool to study electric-dipole strength distributions in nuclei. The present work reports a systematic investigation of the chain of stable even-mass Nd isotopes representing a transition from spherical to quadrupole-deformed nuclei. Purpose: Extraction of the equivalent photo-absorption cross sections and analysis of their fine structure in the energy region of the IsoVector Giant Dipole Resonance (IVGDR). Method: Proton inelastic scattering reactions of 200 MeV protons were measured at iThemba LABS in Cape Town, South Africa. The scattering products were momentum-analysed by the K600 magnetic spectrometer positioned at $\theta_{\mathrm{Lab}}=0^\circ$. Using dispersion-matching techniques, energy resolutions of $\Delta E \approx 40 - 50$ keV were obtained. After subtraction of background and contributions from other multipoles, the spectra were converted to photo-absorption cross sections using the equivalent virtual-photon method. Results: Wavelet-analysis techniques are used to extract characteristic energy scales of the fine structure of the IVGDR from the experimental data. Comparisons with the Quasiparticle-Phonon Model (QPM) and Skyrme Separable Random Phase Approximation (SSRPA) predictions provide insight into the role of different giant resonance damping mechanisms. Conclusions: Fine structure is observed even for the most deformed nuclei studied. Fragmentation of the one particle-one hole ($1p1h$) strength seems to be the main source of fine structure in both spherical and deformed nuclei. Some impact of the spreading due to coupling of the two particle-two hole ($2p2h$) states to the $1p1h$ doorway states is seen in the spherical/transitional nuclei, where calculations beyond the $1p1h$ level are available., Comment: 17 pages, 17 figures; Minor changes made such as those clarifying the descriptions of the analysis procedure, but the results are unchanged. The current version was accepted for publication by PRC on 7 December 2020

Published

2020

3. Wavelet signatures of $K$-splitting of the Isoscalar Giant Quadrupole Resonance in deformed nuclei from high-resolution (p,p$'$) scattering off $^{146,148,150}$Nd

Author

Kureba, C. O., Buthelezi, Z., Carter, J., Cooper, G. R. J., Fearick, R. W., Förtsch, S. V., Jingo, M., Kleinig, W., Krugmann, A., Krumbolz, A. M., Kvasil, J., Mabiala, J., Mira, J. P., Nesterenko, V. O., von Neumann-Cosel, P., Neveling, R., Papka, P., Reinhard, P. -G., Richter, A., Sideras-Haddad, E., Smit, F. D., Steyn, G. F., Swartz, J. A., Tamii, A., and Usman, I. T.

Subjects

Nuclear Experiment

Abstract

The phenomenon of fine structure of the Isoscalar Giant Quadrupole Resonance (ISGQR) has been studied with high energy-resolution proton inelastic scattering at iThemba LABS in the chain of stable even-mass Nd isotopes covering the transition from spherical to deformed ground states. A wavelet analysis of the background-subtracted spectra in the deformed 146,148,150Nd isotopes reveals characteristic scales in correspondence with scales obtained from a Skyrme RPA calculation using the SVmas10 parameterization. A semblance analysis shows that these scales arise from the energy shift between the main fragments of the K = 0, 1 and K = 2 components., Comment: 7 pages, 6 figures

Published

2017

4. Deformation dependence of the isovector giant dipole resonance: The neodymium isotopic chain revisited

Author

Donaldson, L. M., Bertulani, C. A., Carter, J., Nesterenko, V. O., von Neumann-Cosel, P., Neveling, R., Reinhard, P. -G., Usman, I. T., Adsley, P., Brummer, J. W., Buthelezi, E. Z., Cooper, G. R. J., Fearick, R. W., Förtsch, S. V., Fujita, H., Fujita, Y., Jingo, M., Kleinig, W., Kureba, C. O., Kvasil, J., Latif, M., Li, K. C. W., Mira, J. P., Nemulodi, F., Papka, P., Pellegri, L., Pietralla, N., Ponomarev, V. Yu., Richter, A., Sideras-Haddad, E., Smit, F. D., Steyn, G. F., Swartz, J. A., and Tamii, A.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

Proton inelastic scattering experiments at energy E_p = 200 MeV and a spectrometer scattering angle of 0 degree were performed on 144,146,148,150Nd and 152Sm exciting the IsoVector Giant Dipole Resonance (IVGDR). Comparison with results from photo-absorption experiments reveals a shift of resonance maxima towards higher energies for vibrational and transitional nuclei. The extracted photo-absorption cross sections in the most deformed nuclei, 150Nd and 152Sm, exhibit a pronounced asymmetry rather than a distinct double-hump structure expected as a signature of K-splitting. This behaviour can be related to the proximity of these nuclei to the critical point of the phase shape transition from vibrators to rotors with a soft quadrupole deformation potential. Self-consistent random-phase approximation (RPA) calculations using the SLy6 Skyrme force provide a relevant description of the IVGDR shapes deduced from the present data, Comment: 8 pages, 4 figures

Published

2016

5. Deformation-induced splitting of isoscalar E0 giant resonance: Skyrme random-phase-approximation analysis

Author

Kvasil, J., Nesterenko, V. O., Repko, A., Kleinig, W., and Reinhard, P. -G.

Subjects

Nuclear Theory

Abstract

The deformation-induced splitting of isoscalar giant monopole resonance (ISGMR) is systematically analyzed in a wide range of masses covering medium, rare-earth, actinide, and superheavy axial deformed nuclei. The study is performed within the fully self-consistent quasiparticle random-phase-approximation (QRPA) method based on the Skyrme functional. Two Skyrme forces, one with a large (SV-bas) and one with a small (SkP) nuclear incompressibility, are considered. The calculations confirm earlier results that, due to the deformation-induced E0-E2 coupling, the isoscalar E0 resonance attains a double-peak structure and significant energy upshift. Our results are compared with available analytic estimations. Unlike earlier studies, we get a smaller energy difference between the lower and upper peaks and thus a stronger E0-E2 coupling. This in turn results in more pumping of E0 strength into the lower peak and more pronounced splitting of ISGMR. We also discuss widths of the peaks and their negligible correlation with deformation., Comment: 11 pages, 10 figures

Published

2016

6. Toroidal resonance: relation to pygmy mode, vortical properties and anomalous deformation splitting

Author

Nesterenko, V. O., Kvasil, J., Repko, A., Kleinig, W., and Reinhard, P. -G.

Subjects

Nuclear Theory

Abstract

We review a recent progress in investigation of the isoscalar toroidal dipole resonance (TDR). A possible relation of the TDR and low-energy dipole strength (also called a pygmy resonance) is analyzed. It is shown that the dipole strength in the pygmy region can by understood as a local manifestation of the collective vortical toroidal motion at the nuclear surface. Application of the TDR as a measure of the nuclear dipole vorticity is discussed. Finally, an anomalous splitting of the TDR in deformed nuclei is scrutinized., Comment: 8 pages, 5 figures, submitted to "Physics of Atomic Nuclei"

Published

2016

7. Deformation-induced splitting of the monopole giant resonance in 24Mg

Author

Kvasil, J., Nesterenko, V. O., Repko, A., Reinhard, P. -G., and Kleinig, W.

Subjects

Nuclear Theory

Abstract

The strong deformation splitting of the isoscalar giant monopole resonance (ISGMR), recently observed in ($\alpha,\alpha'$) reaction in prolate $^{24}$Mg, is analyzed in the framework of the Skyrme quasiparticle random-phase-approximation (QRPA) approach with the Skyrme forces SkM*, SVbas and SkP$^{\delta}$. The calculations with these forces give close results and confirm that the low-energy E0-peak is caused by the deformation-induced coupling of ISGMR with the K=0 branch of the isoscalar giant quadrupole resonance., Comment: 3 pages, 1 figure, to be published in EPJ Web of Conferences (Proceedings of the International Conference NSRT15, Dubna, Russia, 2015)

Published

2015

8. Skyrme Random-Phase-Approximation description of lowest $K^{\pi}=2^+_{\gamma}$ states in axially deformed nuclei

Author

Nesterenko, V. O., Kartavenko, V. G., Kleinig, W., Jolos, R. V., Kvasil, J., and Reinhard, P. -G.

Subjects

Nuclear Theory

Abstract

The lowest quadrupole $\gamma$-vibrational $K^{\pi}=2^+$ states in axially deformed rare-earth (Nd, Sm, Gd, Dy, Er, Yb, Hf, W) and actinide (U) nuclei are systematically investigated within the separable random-phase-approximation (SRPA) based on the Skyrme functional. The energies $E_{\gamma}$ and reduced transition probabilities $B(E2)$ of $2^+_{\gamma}$-states are calculated with the Skyrme forces SV-bas and SkM$^*$. The energies of two-quasiparticle configurations forming the SRPA basis are corrected by using the pairing blocking effect. This results in a systematic downshift of $E_{\gamma}$ by 0.3-0.5 MeV and thus in a better agreement with the experiment, especially in Sm, Gd, Dy, Hf, and W regions. For other isotopic chains, a noticeable overestimation of $E_{\gamma}$ and too weak collectivity of $2^+_{\gamma}$-states still persist. It is shown that domains of nuclei with a low and high $2^+_{\gamma}$ -collectivity are related with the structure of the lowest 2-quasiparticle states and conservation of the Nilsson selection rules. The description of $2^+_{\gamma}$ states with SV-bas and SkM$^*$ is similar in light rare-earth nuclei but deviates in heavier nuclei. However SV-bas much better reproduces the quadrupole deformation and energy of the isoscalar giant quadrupole resonance. The accuracy of SRPA is justified by comparison with exact RPA. The calculations suggest that a further development of the self-consistent calculation schemes is needed for a systematic satisfactory description of the $2^+_{\gamma}$ states., Comment: 16 pages, 10 figures, 2 tables

Published

2015

9. Monopole giant resonance in $^{100-132}$Sn, $^{144}$Sm and $^{208}$Pb

Author

Kvasil, J., Bozhik, D., Repko, A., Reinhard, P. -G., Nesterenko, V. O., and Kleinig, W.

Subjects

Nuclear Theory

Abstract

The isoscalar giant monopole resonance (GMR) in spherical nuclei $^{100-132}$Sn, $^{144}$Sm, and $^{208}$Pb is investigated within the Skyrme random-phase-approximation (RPA) for a variety of Skyrme forces and different pairing options. The calculated GMR strength functions are directly compared to the available experimental distributions. It is shown that, in accordance to results of other groups, description of GMR in Sn and heavier Sm/Pb nuclei needs different values of the nuclear incompressibilty, $K \approx$ 200 or 230 MeV, respectively. Thus none from the used Skyrme forces is able to describe GMR in these nuclei simultaneously. The GMR peak energy in open-shell $^{120}$Sn is found to depend on the isoscalar effective mass, which might be partly used for a solution of the above problem. Some important aspects of the problem (discrepancies of available experimental data, proper treatment of the volume and surface compression in finite nuclei, etc) are briefly discussed., Comment: 6 pages, 3 figures, submitted to Phys. Scr. (Proceed. of XXI Nuclear Physics Workshop, 23-28.09.2014, Kazimierz Dolny, Poland)

Published

2014

10. Nuclear-structure experiments at iThemba LABS to investigate discrepancies between (p, p′) and (γ, xn) data

Author

Donaldson, L M, primary, Adsley, P, additional, Banu, A, additional, Bassauer, S, additional, Bastin, B, additional, Bertulani, C A, additional, Brümmer, J W, additional, Carter, J, additional, Cooper, G R J, additional, Fearick, R W, additional, Förtsch, S V, additional, Fujita, H, additional, Fujita, Y, additional, Hammache, F, additional, Harakeh, M N, additional, Henderson, J, additional, Jingo, M, additional, Jivan, H, additional, Kheswa, B V, additional, Kheswa, N Y, additional, Kleinig, W, additional, Kureba, C O, additional, Kvasil, J, additional, Latif, M, additional, Li, K C W, additional, Meyer, A, additional, Mira, J P, additional, Nemulodi, F, additional, Nesterenko, V O, additional, von Neumann-Cosel, P, additional, Neveling, R, additional, Papka, P, additional, Pellegri, L, additional, Pietralla, N, additional, Richter, A, additional, Yu Ponomarev, V, additional, Rebeiro, B, additional, Reinhard, P -G, additional, de Séréville, N, additional, Sideras-Haddad, E, additional, Smit, F D, additional, Smith, M K, additional, Swartz, J A, additional, Tamii, A, additional, and Usman, I T, additional

Published

2023

11. Microscopic analysis of low-energy spin and orbital magnetic dipole excitations in deformed nuclei

Author

Nesterenko, V. O., primary, Vishnevskiy, P. I., additional, Kvasil, J., additional, Repko, A., additional, and Kleinig, W., additional

Published

2021

12. Fine structure of the isovector giant dipole resonance in Nd142-150 and Sm-152

Author

Donaldson, LM, Carter, J, Von Neumann-Cosel, P, Nesterenko, VO, Neveling, R, Reinhard, P-G, Usman, IT, Adsley, P, Bertulani, CA, Brummer, JW, Buthelezi, EZ, Cooper, GRJ, Fearick, RW, Fortsch, S, Fujita, H, Fujita, Y, Jingo, M, Kheswa, NY, Kleinig, W, Kureba, CO, Kvasil, J, Latif, M, Li, KCW, Mira, JP, Nemulodi, F, Papka, P, Pellegri, L, Pietralla, N, Ponomarev, V Yu, Rebeiro, B, Richter, A, Shirikova, N Yu, Sideras-Haddad, E, Sushkov, A, Smit, FD, Steyn, GF, Swartz, JA, and Tamii, A

Subjects

Science & Technology, Physics, Nuclear, Physics, Physical Sciences, EXCITATION, SCATTERING, DENSITIES, TRANSITION REGION

Abstract

ispartof: PHYSICAL REVIEW C vol:102 issue:6 status: published

Published

2020

13. Skyrme RPA description of γ-vibrational states in rare-earth nuclei

Author

Nesterenko V.O., Kartavenko V.G., Kleinig W., Kvasil J., Repko A., Jolos R.V., and Reinhard P.-G.

Subjects

Physics, QC1-999

Abstract

The lowest γ-vibrational states with Kπ = 2+γ in well-deformed Dy, Er and Yb isotopes are investigated within the self-consistent separable quasiparticle random-phase-approximation (QRPA) approach based on the Skyrme functional. The energies Eγ and reduced transition probabilities B(E2)γ of the states are calculated with the Skyrme force SV-mas10. We demonstrate the strong effect of the pairing blocking on the energies of γ-vibrational states. It is also shown that collectivity of γ-vibrational states is strictly determined by keeping the Nilsson selection rules in the corresponding lowest 2qp configurations.

Published

2016

14. Deformation-induced splitting of the monopole giant resonance in 24Mg

Author

Kvasil J., Nesterenko V.O., Repko A., Reinhard P.-G., and Kleinig W.

Subjects

Physics, QC1-999

Abstract

The strong deformation splitting of the isoscalar giant monopole resonance (ISGMR), recently observed in (α, α′) reaction in prolate 24Mg, is analyzed in the framework of the Skyrme quasiparticle randomphase-approximation (QRPA) approach with the Skyrme forces SkM*, SVbas and SkPδ. The calculations with these forces give close results and confirm that the low-energy E0-peak is caused by the deformation-induced coupling of ISGMR with the K = 0 branch of the isoscalar giant quadrupole resonance.

Published

2016

15. Fine structure of the isovector giant dipole resonance in Nd142–150 and Sm152

Author

Donaldson, L. M., primary, Carter, J., additional, von Neumann-Cosel, P., additional, Nesterenko, V. O., additional, Neveling, R., additional, Reinhard, P.-G., additional, Usman, I. T., additional, Adsley, P., additional, Bertulani, C. A., additional, Brümmer, J. W., additional, Buthelezi, E. Z., additional, Cooper, G. R. J., additional, Fearick, R. W., additional, Förtsch, S. V., additional, Fujita, H., additional, Fujita, Y., additional, Jingo, M., additional, Kheswa, N. Y., additional, Kleinig, W., additional, Kureba, C. O., additional, Kvasil, J., additional, Latif, M., additional, Li, K. C. W., additional, Mira, J. P., additional, Nemulodi, F., additional, Papka, P., additional, Pellegri, L., additional, Pietralla, N., additional, Ponomarev, V. Yu., additional, Rebeiro, B., additional, Richter, A., additional, Shirikova, N. Yu., additional, Sideras-Haddad, E., additional, Sushkov, A. V., additional, Smit, F. D., additional, Steyn, G. F., additional, Swartz, J. A., additional, and Tamii, A., additional

Published

2020

16. Wavelet signatures of K-splitting of the Isoscalar Giant Quadrupole Resonance in deformed nuclei from high-resolution (p,p′) scattering off 146, 148, 150Nd

Author

Kureba, C.O., Buthelezi, Z., Carter, J., Cooper, G.R.J., Fearick, R.W., Förtsch, S.V., Jingo, M., Kleinig, W., Krugmann, A., Krumbolz, A.M., Kvasil, J., Mabiala, J., Mira, J.P., Nesterenko, V.O., von Neumann-Cosel, P., Neveling, R., Papka, P., Reinhard, P.-G., Richter, A., Sideras-Haddad, E., Smit, F.D., Steyn, G.F., Swartz, J.A., Tamii, A., and Usman, I.T.

Published

2018

17. Deformation dependence of the isovector giant dipole resonance: The neodymium isotopic chain revisited

Author

Donaldson, L.M., Bertulani, C.A., Carter, J., Nesterenko, V.O., von Neumann-Cosel, P., Neveling, R., Ponomarev, V.Yu., Reinhard, P.-G., Usman, I.T., Adsley, P., Brummer, J.W., Buthelezi, E.Z., Cooper, G.R.J., Fearick, R.W., Förtsch, S.V., Fujita, H., Fujita, Y., Jingo, M., Kleinig, W., Kureba, C.O., Kvasil, J., Latif, M., Li, K.C.W., Mira, J.P., Nemulodi, F., Papka, P., Pellegri, L., Pietralla, N., Richter, A., Sideras-Haddad, E., Smit, F.D., Steyn, G.F., Swartz, J.A., and Tamii, A.

Published

2018

18. Deformation-induced splitting of the isoscalarE0giant resonance: Skyrme random-phase-approximation analysis

Author

Kvasil, J., primary, Nesterenko, V. O., additional, Repko, A., additional, Kleinig, W., additional, and Reinhard, P.-G., additional

Published

2016

19. Toroidal resonance: Relation to pygmy mode, vortical properties, and anomalous deformation splitting

Author

Nesterenko, V. O., primary, Kvasil, J., additional, Repko, A., additional, Kleinig, W., additional, and Reinhard, P.-G., additional

Published

2016

20. Skyrme random-phase-approximation description of lowestKπ=2γ+states in axially deformed nuclei

Author

Nesterenko, V. O., primary, Kartavenko, V. G., additional, Kleinig, W., additional, Kvasil, J., additional, Repko, A., additional, Jolos, R. V., additional, and Reinhard, P.-G., additional

Published

2016

21. Skyrme RPA description ofγ-vibrational states in rare-earth nuclei

Author

Nesterenko, V.O., primary, Kartavenko, V.G., additional, Kleinig, W., additional, Kvasil, J., additional, Repko, A., additional, Jolos, R.V., additional, and Reinhard, P.-G., additional

Published

2016

22. Monopole giant resonance in100−132Sn,144Sm and208Pb

Author

Kvasil, J, primary, Božík, D, additional, Repko, A, additional, Reinhard, P-G, additional, Nesterenko, V O, additional, and Kleinig, W, additional

Published

2015

23. Deformation effects in Giant Monopole Resonance

Author

Kvasil, J, primary, Nesterenko, V O, additional, Repko, A, additional, Bozik, D, additional, Kleinig, W, additional, and Reinhard, P-G, additional

Published

2015

24. Deformation-induced splitting of the monopole giant resonance in 24Mg.

Author

Kvasil, J., Nesterenko, V. O., Repko, A., Reinhard, P. -G., and Kleinig, W.

Subjects

MAGNETIC monopoles, QUASIPARTICLE-phonon model, CHEMICAL engineering approximation methods, SKYRME model, NUCLEAR models

Abstract

The strong deformation splitting of the isoscalar giant monopole resonance (ISGMR), recently observed in (α, α') reaction in prolate 24Mg, is analyzed in the framework of the Skyrme quasiparticle randomphase- approximation (QRPA) approach with the Skyrme forces SkM*, SVbas and SkPδ. The calculations with these forces give close results and confirm that the low-energy E0-peak is caused by the deformation-induced coupling of ISGMR with the K = 0 branch of the isoscalar giant quadrupole resonance. [ABSTRACT FROM AUTHOR]

Published

2016

25. Wavelet signatures of K-splitting of the Isoscalar Giant Quadrupole Resonance in deformed nuclei from high-resolution (p,p′) scattering off 146, 148, 150Nd.

Author

Carter, J., Jingo, M., Sideras-Haddad, E., Usman, I.T., Kureba, C.O., Mabiala, J., Swartz, J.A., Reinhard, P.-G., Tamii, A., Buthelezi, Z., Förtsch, S.V., Mira, J.P., Neveling, R., Smit, F.D., Steyn, G.F., Papka, P., Cooper, G.R.J., Fearick, R.W., Nesterenko, V.O., and Kleinig, W.

Subjects

*PROTON scattering, *NEODYMIUM isotopes, *WAVELETS (Mathematics), *MAGNETIC spectrometer, *HEAVY nuclei, *DISCRETE wavelet transforms

Abstract

The phenomenon of fine structure of the Isoscalar Giant Quadrupole Resonance (ISGQR) has been studied with high energy-resolution proton inelastic scattering at iThemba LABS in the chain of stable even-mass Nd isotopes covering the transition from spherical to deformed ground states. A wavelet analysis of the background-subtracted spectra in the deformed 146, 148, 150 Nd isotopes reveals characteristic scales in correspondence with scales obtained from a Skyrme RPA calculation using the SVmas10 parameterization. A semblance analysis shows that these scales arise from the energy shift between the main fragments of the K = 0 , 1 and K = 2 components. [ABSTRACT FROM AUTHOR]

Published

2018

26. Skyrme random-phase-approximation description of lowest Kπ=2γ+ states in axially deformed nuclei.

Author

Nesterenko, V. O., Kartavenko, V. G., Kleinig, W., Kvasil, J., Repko, A., Jolos, R. V., and Reinhard, P.-G.

Subjects

*PHYSICS periodicals, *NEODYMIUM, *QUADRUPOLES, *ACTINIDE elements

Abstract

The lowest quadrupole γ-vibrational Kπ=2+ states in axially deformed rare-earth (Nd, Sm, Gd, Dy, Er, Yb, Hf, W) and actinide (U) nuclei are systematically investigated within the separable random-phase-approximation (SRPA) based on the Skyrme functional. The energies Eγ and reduced transition probabilities B(E2) of 2γ+ states are calculated with the Skyrme forces SV-bas and SkM*. The energies of two-quasiparticle configurations forming the SRPA basis are corrected by using the pairing blocking effect. This results in a systematic downshift of Eγ by 0.3-0.5 MeV and thus in a better agreement with the experiment, especially in Sm, Gd, Dy, Hf, and W regions. For other isotopic chains, a noticeable overestimation of Eγ and too weak collectivity of 2γ+ states still persist. It is shown that domains of nuclei with low and high 2γ+ collectivity are related to the structure of the lowest two-quasiparticle states and conservation of the Nilsson selection rules. The description of +γ+ states with SV-bas and SkM* is similar in light rare-earth nuclei but deviates in heavier nuclei. However SV-bas much better reproduces the quadrupole deformation and energy of the isoscalar giant quadrupole resonance. The accuracy of SRPA is justified by comparison with exact RPA. The calculations suggest that a further development of the self-consistent calculation schemes is needed for a systematic satisfactory description of the 2γ+ states. [ABSTRACT FROM AUTHOR]

Published

2016

27. Deformation-induced splitting of the isoscalar E0 giant resonance: Skyrme random-phase-approximation analysis.

Author

Kvasil, J., Nesterenko, V. O., Repko, A., Kleinig, W., and Reinhard, P.-G.

Subjects

*GIANT nuclear magnetic resonance, *SKYRME model, *DEFORMATIONS (Mechanics)

Abstract

The deformation-induced splitting of isoscalar giant monopole resonance (ISGMR) is systematically analyzed in a wide range of masses covering medium, rare-earth, actinide, and superheavy axial deformed nuclei. The study is performed within the fully self-consistent quasiparticle random-phase-approximation method based on the Skyrme functional. Two Skyrme forces, one with a large (SV-bas) and one with a small (SkP) nuclear incompressibility, are considered. The calculations confirm earlier results that, because of the deformation-induced E0-E2 coupling, the isoscalar E0 resonance attains a double-peak structure and significant energy upshift. Our results are compared with available analytic estimations. Unlike earlier studies, we get a smaller energy difference between the lower and upper peaks and thus a stronger E0-E2 coupling. This in turn results in more pumping of E0 strength into the lower peak and more pronounced splitting of ISGMR. We also discuss widths of the peaks and their negligible correlation with deformation. [ABSTRACT FROM AUTHOR]

Published

2016