Fine structure of the giant dipole resonance in 16O as observed by inelastic electron scattering at 180°

doi:10.1016/0029-5582(65)90260-9

Nuclear Physics

Volume 74, Issue 1, December 1965, Pages 219-224

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Abstract

Higher resolution measurements on the giant resonance excitation in ¹⁶O have been performed by inelastic electron scattering at 180°. Considerably more structure was found than in previous experiments of Goldemberg and Barber. The results indicate that the integrated strength of the giant resonance plotted as a function of momentum transfer q behaves as predicted by the particle-hole calculations of Lewis and Walecka. However, a pronounced shift in dipole strength turned out to be much smaller than predicted by the theory.

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^†: On leave from the Interuniversity Institute for Nuclear Sciences, Natuurkundig Laboratorium, University of Gent, Belgium.

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Nuclear Physics

Fine structure of the giant dipole resonance in 16O as observed by inelastic electron scattering at 180°

Abstract

Nuclear Physics

Nuclear Physics

JETP (Soviet Physics)

Ann. Rev. Nucl. Sci.

Phys. Rev.

Phys. Rev.

Phys. Rev. Lett.

Fine structure of the giant dipole resonance in ¹⁶O as observed by inelastic electron scattering at 180°