Giant dipole resonance and evolution of concepts of nuclear dynamics

M. Danos^a, B.S. Ishkhanov^b, N.P. Yudin^b, R.A. Eramzhyan^c
^aNational Institute of Standards and Technology, 100 Bureau Drive, Gaithersburg, MD, 20899-3460, USA
^bLomonosov Moscow State University, Faculty of Physics, Leninskie Gory 1 build. 2, Moscow, 119991, Russian Federation
^cInstitute for Nuclear Research, Russian Academy of Sciences, prosp. 60-letiya Oktyabrya 7a, Moscow, 117312, Russian Federation

Fifty years ago, in his paper on ’Quadrupole and dipole γ emission from nuclei’, A.B. Migdal introduced implicitly the concept of a dynamic collective model in nuclear physics and used this concept to predict a giant dipole resonance. Evolution of the theory of this resonance has had an enormous influence on the formation of modern concepts relating to the dynamics of nuclei. A brief historical introduction is followed in this paper by an account of the conceptual aspects of the subsequent evolution of the ideas on the nature of the giant dipole resonance. This evolution has followed a complex path from the initial identification of a nucleus with a liquid drop to its representation as a system of independent nucleons. Recent investigations have made it possible to understand the interrelationships between these apparently diametrically opposed concepts, to bring them closer together, and to demonstrate the equivalence of the description of the giant dipole resonance with either concept.

PACS: 24.30.Cz, 21.60.Ev (all)
DOI: 10.1070/PU1995v038n12ABEH000122
URL: https://ufn.ru/en/articles/1995/12/a/
Web of Science

A1995TR07000001
Citation: Danos M, Ishkhanov B S, Yudin N P, Eramzhyan R A "Giant dipole resonance and evolution of concepts of nuclear dynamics" Phys. Usp. 38 1297–1307 (1995)

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Оригинал: Данос М, Ишханов Б С, Юдин Н П, Эрамжян Р А «Дипольный гигантский резонанс и развитие представлений о динамике ядра (К 50-летию выхода в свет работы А.Б. Мигдала "Квадрупольное и дипольное γ-излучение ядер’)» УФН 165 1345–1355 (1995); DOI: 10.3367/UFNr.0165.199512a.1345

References (65) Cited by (18) Similar articles (17) ↓

B.S. Ishkhanov, I.M. Kapitonov “Giant dipole resonance of atomic nuclei. Prediction, discovery, and research” 64 141–156 (2021)
B.S. Ishkhanov, I.M. Kapitonov et al “Configurational splitting of the giant dipole resonance in atomic nuclei” 33 (3) 204–227 (1990)
K.N. Mukhin, O.O. Patarakin “Δ isobar in nuclei (review of experimental data)” 38 803–844 (1995)
A.I. Obukhov, N.A. Perfilov “Nuclear fission” 10 559–599 (1968)
P.V. Elyutin “The quantum chaos problem” 31 597–622 (1988)
V.V. Zaitsev, A.V. Stepanov “Coronal magnetic loops” 51 1123–1160 (2008)
P.K. Shukla, B. Eliasson “Nonlinear aspects of quantum plasma physics” 53 51–76 (2010)
B.M. Smirnov “Processes involving clusters and small particles in a buffer gas” 54 691–721 (2011)
V.B. Shikin “Instability and reconstruction of a charged liquid surface” 54 1203–1225 (2011)
A.I. Vesnitskii, A.V. Metrikin “Transition radiation in mechanics” 39 983–1007 (1996)
M.B. Menskii “Decoherence and the theory of continuous quantum measurements” 41 923–940 (1998)
V.I. Dokuchaev “Birth and life of massive black holes” 34 (6) 447–470 (1991)
M.A. El’yashevich “From the origin of quantum concepts to the establishment of quantum mechanics” 20 656–682 (1977)
A.V. Tutukov, A.M. Cherepashchuk “Evolution of close binary stars: theory and observations” 63 209–244 (2020)
O.V. Maslennikov, M.M. Pugavko et al “Nonlinear dynamics and machine learning of recurrent spiking neural networks” 65 1020–1038 (2022)
M.A. Leontovich “Evolution of the concepts of magnetic and electric lines of force” 7 877–880 (1965)
G.D. Malyuzhinets “Developments in our concepts of diffraction phenomena (on the 130TH anniversary of the death of Thomas Young)” 2 749–758 (1959)

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