Standard

Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes. / Speth, J.; Reinhard, P.-G.; Tselyaev, V.; Lyutorovich, N.

в: Physical Review C, Том 102, № 5, 054332, 30.11.2020.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Speth, J, Reinhard, P-G, Tselyaev, V & Lyutorovich, N 2020, 'Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes', Physical Review C, Том. 102, № 5, 054332.

APA

Speth, J., Reinhard, P-G., Tselyaev, V., & Lyutorovich, N. (2020). Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes. Physical Review C, 102(5), [054332].

Vancouver

Speth J, Reinhard P-G, Tselyaev V, Lyutorovich N. Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes. Physical Review C. 2020 Нояб. 30;102(5). 054332.

Author

Speth, J. ; Reinhard, P.-G. ; Tselyaev, V. ; Lyutorovich, N. / Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes. в: Physical Review C. 2020 ; Том 102, № 5.

BibTeX

@article{3fdf4db3101b4a588a909f3538e13937,
title = "Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes",
abstract = "We discuss major differences between electric and magnetic excitations in nuclei appearing in self-consistent calculations based on Skyrme energy-density functionals (EDFs). For this we calculate collective low- and high-lying electric and magnetic excitations in 208Pb within a self-consistent Skyrme EDF approach using the random-phase approximation (RPA) and a more sophisticated particle-hole plus phonon-coupling model, coined the time-blocking approximation (TBA). Tools of analysis are Landau-Migdal parameters for bulk properties and the RPA and TBA results for finite nuclei. We show that the interplay between the effective mass and the effective particle-hole interaction, well known in the Landau-Migdal theory, renders the final results rather independent of the effective mass by virtue of the “backflow effect.” It explains the success of self-consistent calculations of electric transitions in such approaches. This effect, however, is absent in the magnetic case and leads to higher fluctuations in the results. It calls for further developments of the Skyrme functional in the spin channel.",
author = "J. Speth and P.-G. Reinhard and V. Tselyaev and N. Lyutorovich",
year = "2020",
month = nov,
day = "30",
language = "English",
volume = "102",
journal = "Physical Review C - Nuclear Physics",
issn = "0556-2813",
publisher = "American Physical Society",
number = "5",

}

RIS

TY - JOUR

T1 - Generalized Skyrme random-phase approximation for nuclear resonances: Different trends for electric and magnetic modes

AU - Speth, J.

AU - Reinhard, P.-G.

AU - Tselyaev, V.

AU - Lyutorovich, N.

PY - 2020/11/30

Y1 - 2020/11/30

N2 - We discuss major differences between electric and magnetic excitations in nuclei appearing in self-consistent calculations based on Skyrme energy-density functionals (EDFs). For this we calculate collective low- and high-lying electric and magnetic excitations in 208Pb within a self-consistent Skyrme EDF approach using the random-phase approximation (RPA) and a more sophisticated particle-hole plus phonon-coupling model, coined the time-blocking approximation (TBA). Tools of analysis are Landau-Migdal parameters for bulk properties and the RPA and TBA results for finite nuclei. We show that the interplay between the effective mass and the effective particle-hole interaction, well known in the Landau-Migdal theory, renders the final results rather independent of the effective mass by virtue of the “backflow effect.” It explains the success of self-consistent calculations of electric transitions in such approaches. This effect, however, is absent in the magnetic case and leads to higher fluctuations in the results. It calls for further developments of the Skyrme functional in the spin channel.

AB - We discuss major differences between electric and magnetic excitations in nuclei appearing in self-consistent calculations based on Skyrme energy-density functionals (EDFs). For this we calculate collective low- and high-lying electric and magnetic excitations in 208Pb within a self-consistent Skyrme EDF approach using the random-phase approximation (RPA) and a more sophisticated particle-hole plus phonon-coupling model, coined the time-blocking approximation (TBA). Tools of analysis are Landau-Migdal parameters for bulk properties and the RPA and TBA results for finite nuclei. We show that the interplay between the effective mass and the effective particle-hole interaction, well known in the Landau-Migdal theory, renders the final results rather independent of the effective mass by virtue of the “backflow effect.” It explains the success of self-consistent calculations of electric transitions in such approaches. This effect, however, is absent in the magnetic case and leads to higher fluctuations in the results. It calls for further developments of the Skyrme functional in the spin channel.

UR - https://journals.aps.org/prc/abstract/10.1103/PhysRevC.102.054332

M3 - Article

VL - 102

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

SN - 0556-2813

IS - 5

M1 - 054332

ER -

ID: 71306742