Be 9 + p breakup at 5.67A MeV in a full kinematics approach
Pakou A.
Pakou A.
Sgouros O.
Soukeras V.
Cappuzzello F.
Acosta L.
Agodi C.
Boiano A.
Calabrese S.
Carbone D.
Carbone D.
Cavallaro M.
Deshmukh N.
Foti A.
Foti A.
Foti A.
Hacisalihoglu A.
Keeley N.
La Commara M.
Martel I.
Mazzocco M.
Muoio A.
Parascandolo C.
Pierroutsakou D.
Rusek K.
Rusek K.
Sánchez A.M.
Santagati G.
Souliotis G.
Spatafora A.
Strano E.
Torresi D.
Trzcinska A.
Physical Review C
Doi 10.1103/PhysRevC.101.024602
Volumen 101
2020-02-01
Citas: 5
© 2020 American Physical Society.The exclusive breakup of the Borromean nucleus Be9 incident on a proton target at 5.67 MeV/nucleon was studied with a triple coincidence requirement between the two breakup ? fragments and the recoiling proton. The analysis was performed using an event-by-event code in a full kinematics approach, and Q-value spectra, relative spectra, and energy spectra of all reaction products were determined. Clear signatures of the three breakup modes: ?+?+n, Be8+n, and He5+He4 were observed in the recoiling proton spectra and the rates of these modes were quantified.
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