G. Di Bartolo
Istituto Nazionale di Fisica Nucleare
8 Papers
39 Citations
G. Di Bartolo is an academic researcher from Istituto Nazionale di Fisica Nucleare. The author has contributed to research in topics: Ion beam & Beam (structure). The author has an hindex of 3, co-authored 8 publications. Previous affiliations of G. Di Bartolo include Oak Ridge National Laboratory.
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Papers
Recent developments of the EXCYT project
G. Ciavola,Luciano Calabretta,Giacomo Cuttone,G. Di Bartolo,Paolo Finocchiaro,Santo Gammino,M. Gu,Emilio Migneco,J. Qin,G. Raia,Danilo Rifuggiato,Alberto Rovelli,D. Vinciguerra,Hermann Wollnik +13 more
TL;DR: The EXCYT project as discussed by the authors developed a facility for the production and acceleration of exotic beams up to 8 MeV/amu using a K-800 superconducting cyclotron.
15
The ISOL exotic beam facility at LNS: the EXCYT project
G. Ciavola,Luciano Calabretta,Giacomo Cuttone,G. Di Bartolo,Paolo Finocchiaro,Santo Gammino,M. Gu,E. Migneco,J. Qin,G. Raia,Danilo Rifuggiato,Alberto Rovelli,D. Vinciguerra,Hermann Wollnik +13 more
TL;DR: The EXCYT project (EXotics with CYclotron and Tandem) is the development of a facility for producing and accelerating exotic beams from 0.2 up to 8 MeV/amu as discussed by the authors.
14
The EXCYT RIB facility at LNS
G. Ciavola,R. Alba,Luciano Calabretta,Giacomo Cuttone,G. Di Bartolo,Santo Gammino,Emilio Migneco,G. Raia,Danilo Rifuggiato,Alberto Rovelli,J Sura,D Vinciguerra,Hermann Wollnik +12 more
TL;DR: In this article, a project for a low energy ISOL facility at LNS has been funded, which is based on two already existing particle accelerators and includes fully redesigned ion optics, an overview of the design problems and the expected secondary beam intensities.
7
Dependence of exotic nuclides production on target and beam features
M.V Ricciardi,L Barone-Tonghi,Giacomo Cuttone,G. Ciavola,G. Di Bartolo,M. Menna,G Fortuna,S. Monti,L Tecchio +8 more
TL;DR: In this paper, the dependence of intermediate mass (80-160 A) production on target and proton beam features has been investigated by means of hadronic transport Monte Carlo codes.
2
The diffusion properties of ion implanted species in selected target materials
G.D. Alton,J. Dellwo,H. K. Carter,J. Kormicki,G. Di Bartolo,J.C. Batchelder,J. Breitenbach,J.A. Chediak,K. Jentoff-Nilsen,S. Ichikawa +9 more
- 01 Feb 1995
TL;DR: In this article, the authors derived diffusion coefficients for Cl implanted into and diffused from CeS and Zr{sub 5}Si{sub 3} and As, Br, and Se implanted inside and diffusing from Zr[sub 5]Ge{sub3} have been derived from the resulting intensity versus time profiles.
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