I. Companis scite author profile

I. Companis

2Publications

97Citation Statements Received

28Citation Statements Given

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Institut National de Physique Nucléaire et de Physique des Particules, Laboratoire de Physique des deux infinis Bordeaux, French National Centre for Scientific Research

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Study of the surrogate-reaction method applied to neutron-induced capture cross sections

et al. 2012

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174Yb(3He,αγ )173Yb* and 174Yb(3He,pγ )176Lu*, respectively. For the first time, the gamma-decay probabilities have been obtained with two independent experimental methods based on the use of C6D6 scintillators and Germanium detectors. Our results for the radiative-capture cross sections are several times higher than the corresponding neutron-induced data. To explain these differences, we have used our gamma-decay probabilities to extract rather direct information on the spin distributions populated in the transfer reactions used. They are about two times wider and the mean values are 3 to 4 ¯h higher than the ones populated in the neutron-induced reactions. As a consequence, in the transfer reactions neutron emission to the ground and first excited states of the residual nucleus is strongly suppressed and gamma-decay is considerably enhanced

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Direct Observation of Two Protons in the Decay ofZn54

et al. 2011

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The two protons emitted in the decay of 54Zn have been individually observed for the first time in a time projection chamber. The total decay energy and the half-life measured in this work agree with the results obtained in a previous experiment. Angular and energy correlations between the two protons are determined and compared to theoretical distributions of a three-body model. Within the shell model framework, the relative decay probabilities show a strong contribution of the p2 configuration for the two-proton emission. After 45Fe, the present result on 54Zn constitutes only the second case of a direct observation of the ground state two-proton decay of a long-lived isotope.

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I. Companis

Study of the surrogate-reaction method applied to neutron-induced capture cross sections

Direct Observation of Two Protons in the Decay ofZn54

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