6533b7d5fe1ef96bd126462b
RESEARCH PRODUCT
Development of a new Recoil Distance Technique using Coulomb Excitation in Inverse Kinematics
Wolfram RotherAlfred DewaldGabriela IlieThomas PissullaBarbara MelonJan JolieGheorghe PascoviciHironori IwasakiMatthias HacksteinKarl-oskar ZellRauno JulinPeter JonesPaul GreenleesPanu RahkilaJuha UusitaloCath ScholeySotirios HarissopulosAnastasios LagoyannisTheodore KonstantinopoulosTuomas GrahnDimiter BalabanskiPavel PetkovJan JolieAndreas ZilgesNigel WarrAndrey Blazhevsubject
Nuclear physicsPlungerPhysicsRecoilSpectrometerInverse kinematicsExcited stateCoulomb excitationKinematicsBeam (structure)description
We report on an experiment using Coulomb excitation in inverse kinematics in combination with the plunger technique for measuring lifetimes of excited states of the projectiles. Aside from the investigation of E(5) features in 128Xe, the aim was to explore the special features of such experiments which are also suited to be used with radioactive beams. The measurement was performed at the JYFL with the Koln coincidence plunger device and the JUROGAM spectrometer using a 128Xe beam impinging on a natFe target at a beam energy of 525 MeV. Recoils were detected by means of 32 solar cells placed at extreme forward angles. Particle‐gated γ‐singles and γγ‐coincidences were measured at different target‐degrader distances. Details of the experiment and first results are presented.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-01-01 | AIP Conference Proceedings |