par Golovkov, M.S.;Oganessian, Yu.Ts.;Bogdanov, Dmitrij D.D.;Fomichev, Andrey;Rodin, AM;Sidorchuk, S.I.;Slepnev, R.S.;Stepantsov, S.V.;Ter-Akopian, Gurgen;Wolski, Roman;Gorshkov, V.A.;Chelnokov, Maxim;Itkis, Mikhail;Kozulin, E.M.;Bogatchev, A.A.;Kondratiev, N.A.;Korzyukov, I.V. I.V.;Yukhimchuk, Arkadiy;Perevozchikov, V.V.;Vinogradov, Yu;Grishechkin, S.K.;Demin, A.M. A.M.;Zlatoustovskiy, S.V.;Kuryakin, Alexey A.V.;Fil'chagin, S.V. S.V.;Il'kayev, R.I. R.I.;Hanappe, Francis ;Materna, Thomas ;Stuttge, Louise;Ninane, A.;Korsheninnikov, A.A.;Nikolskii, Yu;Tanihata, Isao;Roussel-Chomaz, Patricia;Mittig, Wolfgang;Alamanos, Nicolas;Lapoux, Valerie;Pollacco, EC;Nalpas, L.
Référence Physics letters. Section B, 566, 1-2, page (70-75)
Publication Publié, 2003-07
Référence Physics letters. Section B, 566, 1-2, page (70-75)
Publication Publié, 2003-07
Article révisé par les pairs
Résumé : | Resonance states of 5H were investigated through the two-neutron transfer reaction t(t, p)5 H. A triton beam at 57.5 MeV and a cryogenic liquid tritium target were used. The 5H missing mass spectrum in triple coincidence, proton + triton + neutron, shows a resonance at 1.8 ± 0.1 MeV above the t + 2n decay threshold. This energy is in good agreement with the result reported in Phys. Rev. Lett. 87 (2001) 092501. The resonance width, Γintr ≤ 0.5 MeV, is surprisingly small and difficult to reconcile with theory predictions. © 2003 Published by Elsevier B.V. |