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Research of high energy collective states at high excitation energy in nuclei N. Alamanos, J. Arvieux, B. Berthier, B. Bonin, G. Bruge, M. Buenerd, J.

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Presentation on theme: "Research of high energy collective states at high excitation energy in nuclei N. Alamanos, J. Arvieux, B. Berthier, B. Bonin, G. Bruge, M. Buenerd, J."— Presentation transcript:

1 Research of high energy collective states at high excitation energy in nuclei N. Alamanos, J. Arvieux, B. Berthier, B. Bonin, G. Bruge, M. Buenerd, J. Dechargé, H. Faraggi, D. Gogny, Y. Terrien 1982

2 Collective excitation modes in nuclei

3 GDR : a well known giant resonance

4 GQR : another well known giant resonance

5 Special interest for monopole modes, because they give access to the compressibility of nuclear matter RPA calculations predict the existence of collective high energy modes in nuclei

6 Transition densities BoninGogny-DechargéSatchler Macro RPA Macro

7 Experiment : (alpha, alpha’) inelastic scattering on 208 Pb, 116 Sn, 58 Ni; E alpha = 430, 480 MeV

8 Detection

9 One excitation spectrum…

10 …Many excitation spectra Note the ripples of the angular distribution of the cross section

11 Multipole decomposition Calculation : Transition densities (RPA)  transition potentials  Coupled channel calculation (ECIS, N. Alamanos, J. Raynal)  angular distribution of cross section  multipolarity of the excited states can be deduced from the oscillations of the cross section

12 Same response function extracted for E= 340 and 480 MeV

13 Agreement of experiment with RPA calculations

14 Conclusions High multipolarity giant resonances predicted by RPA calculations have been found. The nucleus still behaves collectively even at high excitation energy!

15 Epilogue Collaboration Saclay-B3 (J. Dechargé) continued with the search of other resonances with polarized deuterons (PhD Th. Mandon).

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