6533b856fe1ef96bd12b22bd
RESEARCH PRODUCT
Angular momentum population in fragmentation reactions
A. M. Denis BacelarA. M. BruceZs. PodolyakS. LalkovskiS. PietriN. Al-dahanM. GorskaA. AlgoraN. AlkhomashiJ. BenlliureP. BoutachkovA. BraccoE. CaloreE. CasarejosI. J. CullenA. Y. DeoP. DetistovZ. DombradiC. Domingo-pardoM. DoncelF. FarinonG. F. FarrellyH. GeisselW. GelletlyJ. GerlN. GoelJ. GreboszRobert HoischenI. KojouharovN. KurzS. LeoniF. MolinaA. I. MoralesD. MontanariA. MusumarraR. NicoliniD. R. NapoliC. NociforoA. ProchazkaW. ProkopowiczP. H. ReganB. RubioDirk RudolphS. VermaS. J. SteerP. StrmenT. P. D. SwanI. SzarkaJ. J. Valiente-dobonP. M. WalkerH. WeickH. J. Wollersheimsubject
UNESCO::FÍSICA::Física molecular:FÍSICA [UNESCO]:FÍSICA::Física molecular [UNESCO]UNESCO::FÍSICANeutron-deficient nucleiProjectile fragmentationHigh-spin isometric ratiosNeutron-deficient nuclei ; Projectile fragmentation ; High-spin isometric ratios ; Reaction mechanismReaction mechanismdescription
Neutron-deficient nuclei with N = 126 have been populated following projectile fragmentation of a 238U beam with energy 1 GeV/A. The decay of several previously reported isomers has been measured. This will allow us to calculate high-spin isomeric ratios and compare them with model calculations to allow a better understanding of the reaction mechanism. Algora, Alejandro, Alejandro.Algora@ific.uv.es ; Molina Palacios, Francisco Manuel, Francisco.Molina@ific.uv.es ; Rubio Barroso, Berta, Berta.Rubio@ific.uv.es
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-03-01 |