H. Diesener scite author profile

With high-resolution inelastic electron scattering measurements on 46Ti and 48Ti the excitation mechanism of the transition into low lying J~ = 1 + states is investigated. The experimental evidence of considerable contribution of the orbital part of the M1 operator to the total transition strength is given by a model dependent analysis of form factors. The possibility of physical relationship to low lying J~=l + states in the rare earth nuclei is discussed in various models. Moreover E2 form factors and good candidates for M3 form factors are presented.

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Spin-flip transitions in 46Ti, 48Ti and 50Cr excited by inelastic proton scattering

Willis

Morlet

Marty

et al. 1989

Nuclear Physics A

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Low-energy isoscalar quadrupole strength in 40Ca and 48Ca from (p,p′x) reactions

et al. 2001

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Giant resonance spectroscopy of 40Ca with the (e,e′x) reaction (III): Direct versus statistical decay

Carter¹,

Diesener²,

Helm³

et al. 2001

Nuclear Physics A

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H. Diesener

Excitation and decay of giant resonances in theCa40(e,e’x) reaction

Electroexcitation of magnetic dipole and other modes in46Ti and48Ti

Spin-flip transitions in 46Ti, 48Ti and 50Cr excited by inelastic proton scattering

Low-energy isoscalar quadrupole strength in 40Ca and 48Ca from (p,p′x) reactions

Giant resonance spectroscopy of 40Ca with the (e,e′x) reaction (III): Direct versus statistical decay

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