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58. Deformation effects in low-momentum distributions of heavy nuclei

Author

Nesterenko, Vo, Likhachev, Vp, Reinhard, Pg, Mesa, J., Kleinig, W., Arruda-Neto, Jdt, and Airton Deppman

Subjects
Nuclear Theory (nucl-th), Nuclear Theory, FOS: Physical sciences
Abstract

Momentum distributions (MD) of deep hole proton states in $^{238}$U are studied paying particular attention to the influence of deformation. Two essentially different mean-field models, Woods-Saxon (WS) and Skyrme-Hartree-Fock with the SkM$^*$ force, are used. Noticeable deviations between the WS and SkM$^*$ results are found. They are mainly due to the difference in effective nucleon mass. In particular, SkM$^*$ gives much weaker deformation effects at low momenta than WS. It is shown that, in spite of the deformation mixing, MD at low momenta can serve for identification of $K^{\pi}=1/2^+$ hole states originating from $s_{1/2}$ spherical sub-shells. Moreover, following the WS calculations, the deformation results in additional $K^{\pi}=1/2^+$ states with strong $l=0$ contributions. A possibility to probe such states in knock-out experiments is discussed., Comment: 9 pages, 3 figures. In the replaced version the figures were optimized without changing their content

Published
2003
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78. 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
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93. SKYRME-RANDOM-PHASE-APPROXIMATION DESCRIPTION OF E1 STRENGTH IN 92–100Mo.

Author

KVASIL, J., VESELY, P., NESTERENKO, V. O., KLEINIG, W., REINHARD, P.-G., and FRAUENDORF, S.

Subjects
MOLYBDENUM isotopes, SKYRME model, NUCLEAR shapes, PARTICLES (Nuclear physics), GIANT nuclear magnetic resonance, ASTROPHYSICS
Abstract

The isovector dipole E1 strength in 92,94,96,98,100Mo is analyzed within the self-consistent separable random-phase approximation (SRPA) model with Skyrme forces SkT6, SkM*, SLy6, and SkI3. The special attention is paid to the low-energy region near the particle thresholds (4-12 MeV), which is important for understanding of astrophysical processes. We show that, due to a compensation effect, the influence of nuclear deformation on E1 strength below 10-12 MeV is quite modest. At the same time, in agreement with previous predictions, the deformation increases the strength at higher energy. At 4-8 MeV the strength is mainly determined by the tail of E1 giant resonance. The four Skyrme forces differ in description of the whole giant resonance but give rather similar results below 12 MeV. [ABSTRACT FROM AUTHOR]

Published
2009
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94. Collective Eλ excitations of surface character in spherical and deformed sodium clusters: vibrating potential model.

Author

Nesterenko, V., Kleinig, W., and Gudkov, V.

Abstract

The self-consistent vibrating potential model (VPM) is extended for the description of Eλ surface collective excitations in alkali metal clusters with practically any kind of static deformation. The case of spherical clusters is also covered. Any single-particle potentials and valence electron densities for which the coefficients of the multipole expansion are known can be used within the model. The strength function method incorporated into the model allows one to avoid solving the equations for every state and, as a result, simplifies the calculations drastically. The model is of a quite general character and can also be used for description of giant resonances in atomic nuclei if the Coulomb terms are neglected. The VPM is applied to calculate the E1, E2 and E3 excitations in spherical (Na, Na and Na) and deformed (Na, Na and Na) clusters. [ABSTRACT FROM AUTHOR]

Published
1995
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95. Deformation effects in low-momentum distributions of heavy nuclei

Author

Nesterenko, V O, Likhachev, V P, Reinhard, P-G, Mesa, J, Kleinig, W, Arruda-Neto, J D T, and Deppman, A

Abstract

Momentum distributions (MD) of deep hole proton states in 238U are studied paying particular attention to the influence of deformation. Two essentially different mean-field models, Woods–Saxon (WS) and Skyrme–Hartree–Fock with the SkM* force, are used. Noticeable deviations between the WS and SkM* results are found. They are mainly due to the difference in the effective nucleon mass. In particular, SkM* gives much weaker deformation effects at low momenta than WS. It is shown that, in spite of the deformation mixing, MD at low momenta can serve for identification of Kπ &equal; 1/2+ hole states originating from s1/2 spherical subshells. Moreover, following the WS calculations, the deformation results in additional Kπ &equal; 1/2+ states with strong l &equal; 0 contributions. A possibility of probing such states in knock-out experiments is discussed.

Published
2003

96. 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
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97. 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
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98. 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
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