Author self-archived e-prints
Articles syndiqués
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[hal-01642860] $\alpha$ clustering in Ti isotopes : $^{40,44,48}$Ca + α resonant scattering
22 novembre 2017, par S. Bailey, M. Freer, T. Kokalova, C. Wheldon, R. SmithMeasurements were made of the ^4He(^40,44,48Ca,alpha) resonant scattering reactions at 180deg. and up to E_c.m. ~ 11.5MeV, using the Thick Target Inverse Kinematics technique. These measurements are discussed, with a focus on assessing their usefulness for investigating alpha-clustering in (...) -
[hal-01642945] Effects of irradiation of energetic heavy ions on digital pulse shape analysis with silicon detectors
22 novembre 2017, par S. Barlini, S. Carboni, L. Bardelli, N. Le Neindre, M. BiniThe next generation of 4@p detector arrays for heavy ion studies will largely use Pulse Shape Analysis to push the performance of silicon detectors with respect to ion identification. Energy resolution and pulse shape identification capabilities of silicon detectors under prolonged irradiation (...) -
[hal-01641181] Front-end electronics for the FAZIA experiment
21 novembre 2017, par F. Salomon, P. Edelbruck, G. Brulin, B. Borderie, A. RichardFAZIA is a multidetector specifically designed to optimize A and Z reaction product identification in heavy-ion collision experiments. This multidetector is modular and based on three-layer telescopes made of two silicon detectors followed by a thick (10 cm) CsI(Tl) scintillator read-out by a (...) -
[hal-01641504] New semi-automatic method for reaction product charge and mass identification in heavy-ion collisions at Fermi energies
21 novembre 2017, par D. Gruyer, E. Bonnet, A. Chbihi, J.D. Frankland, S. BarliniThis article presents a new semi-automatic method for charge and mass identification of charged nuclear fragments using either ΔE−E correlations between measured energy losses in two successive detectors or correlations between charge signal amplitude and rise time in a single silicon detector, (...) -
[hal-01642040] Isotopic identification using Pulse Shape Analysis of current signals from silicon detectors : Recent results from the FAZIA collaboration
21 novembre 2017, par G. Pastore, D. Gruyer, P. Ottanelli, N. Le Neindre, G. PasqualiThe FAZIA apparatus exploits Pulse Shape Analysis (PSA) to identify nuclear fragments stopped in the first layer of a Silicon-Silicon-CsI(Tl) detector telescope. In this work, for the first time, we show that the isotopes of fragments having atomic number as high as Z∼20 can be identified. Such (...)