Strong neutron pairing in core+4n nuclei
Abstract: The emission of neutron pairs from the neutron-rich $N!=!12$ isotones ${18}$C and ${20}$O has been studied by high-energy nucleon knockout from ${19}$N and ${21}$O secondary beams, populating unbound states of the two isotones up to 15~MeV above their two-neutron emission thresholds. The analysis of triple fragment-$n$-$n$ correlations shows that the decay ${19}$N$(-1p){18}$C$*!\rightarrow{16}$C+$n$+$n$ is clearly dominated by direct pair emission. The two-neutron correlation strength, the largest ever observed, suggests the predominance of a ${14}$C core surrounded by four valence neutrons arranged in strongly correlated pairs. On the other hand, a significant competition of a sequential branch is found in the decay ${21}$O$(-1n){20}$O$*!\rightarrow{18}$O+$n$+$n$, attributed to its formation through the knockout of a deeply-bound neutron that breaks the ${16}$O core and reduces the number of pairs.
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