par Sosin, Zbigniew;Wieloch, Andrzej;Łojek, Konrad;Adamczyk, Mariusz;Gonciarz, Anna;Bańka, P.;Lasko, P.;Zosiak, Lukasz;Péter, Jean;Amar, N;Angélique, Jean Claude;Fontbonne, Jean Marc;Grévy, Stéphane;Legou, Th;Liénard, Etienne;Manduci, L.;Tillier, Joel;Drouart, A.;Dayras, Roland;Alamanos, Nicolas;Gillibert, A.;Stodel, Ch;Anne, Rémy;Auger, Gérard;Hue, R.;Khouaja, A.;Santos, De;Saint-Laurent, Marie Genevieve;De Tourreil, Roland;Villari, Antonio C C;Wieleczko, J.P.;Hanappe, Francis 
;Hannachi, Fazia;Lopez-Martens, A.;Politi, Grazia;Stuttge, Louise
Référence Acta Physica Polonica. B, 40, 3, page (741-745)
Publication Publié, 2009-03
;Hannachi, Fazia;Lopez-Martens, A.;Politi, Grazia;Stuttge, LouiseRéférence Acta Physica Polonica. B, 40, 3, page (741-745)
Publication Publié, 2009-03
Article révisé par les pairs
| Résumé : | In the paper we present scintillation-ionization detector (SID) - a new device for support of the superheavy elements (SHE) identification in the standard, complete fusion methods. We highlight problems with background effects in SHE production and their minimization by introducing SID to the detection set-up at GANIL. We also point possible application of this detector in alternative approach for superheavy elements production. |
