El proyecto EXOTIC en INFN-LNL

Contenido principal del artículo

Dimitra Pierroutsakou
Alfonso Boiano
Ciro Boiano
Marco La Commara
Giovanni La Rana
Marco Mazzocco
Concetta Parascandolo
Cosimo Signorini
Francesca Soramel
Emanuele Strano

Resumen

Se describe la instalación EXOTIC de haz de iones radioactivos ligeros de baja energía en vuelo y la configuración experimental asociada, en operación en el Laboratorio Nacional de Legnaro del Instituto Nacional de Física Nuclear (LNL-INFN, Italia) y diseñada para experimentos de física nuclear y astrofísica nuclear. Se presenta el esquema del programa experimental llevado a cabo empleando los haces iónicos radioactivos producidos y se discuten las perspectivas del proyecto EXOTIC.

Detalles del artículo

Cómo citar
Pierroutsakou, D., Boiano, A., Boiano, C., La Commara, M., La Rana, G., Mazzocco, M., Parascandolo, C., Signorini, C., Soramel, F., & Strano, E. (2019). El proyecto EXOTIC en INFN-LNL. Nucleus, (63), 53-57. Recuperado a partir de http://nucleus.cubaenergia.cu/index.php/nucleus/article/view/648
Sección
Ciencias Nucleares

Citas

[1] MAIDIKOV VZ, et. al. The optics of the exotic beam line at LNL. Nucl. Phys. A 2004; 746: 389-392.
[2] PIERROUTSAKOU D, et. al. Light radioactive nuclear beams at LNL. Eur. Phys. J. Special Topics. 2007; 150(1): 47-50
[3] FARINON F, et. al. Commissioning of the EXOTIC beam line. Nucl. Instr. and Meth.B. 2008; 266(19-20): 4097-4102.
[4] MAZZOCCO M, et. al. Production and separation of light low-energy radioactive ion beams with the EXOTIC beam-line at LNL. Nucl. Instr. and Meth.B. 2008; 266(19-20): 4665-4669.
[5] CANTO LF, et. al. Fusion and breakup of weakly bound nuclei. Phys. Rep. 2006; 424(1-2): 1-111.
[6]. FREER M. The clustered nucleus-cluster structures in stable and unstable nuclei. Rep. Prog. Phys. 2007; 70(12): 2149-2210.
[7] ARTEMOV K, et. al. Effective method of study of ?-cluster states. Sov. J. Nucl. Phys. 1990; 52: 408-411.
[8] BAUR G. Breakup reactions as an indirect method to investigate low-energy charged-particle reactions relevant for nuclear astrophysics. Phys. Lett. B. 1986; 178(2-3): 135-138.
[9] CHERUBINI S, et. al. First application of the Trojan horse method with a radioactive ion beam: Study of the 18F (p,?)15O reaction at astrophysical energies. Phys. Rev. C. 2015; 92(1): 015805.
[10] PIERROUTSAKOU D , et. al. The experimental set-up of the RIB in-flight facility EXOTIC. Nucl. Instr. and Meth.A. 2016; 834: 46-70.
[11] SIGNORINI C, et. al. Interaction of 17F with a 208Pb target below the Coulomb barrier. Eur. Phys. J. A. 2010; 44: 63-69.
[12] MAZZOCCO M , et. al. Reaction dynamics for the system 17F+58Ni at near-barrier energies. Phys. Rev. C. 2010; 82(5): 054604.
[13] PATRONIS N, et. al. Event-by-event evaluation of the prompt fission neutron spectrum from 239Pu(n,f).Phys. Rev. C. 2012; 85(2): 024609.
[14] PAKOU A, et. al. Fusion cross sections of 8B +28Si at near-barrier energies. Phys. Rev. C. 2013; 87(1): 014619.
[15] STRANO E, et. al. 17O+58Ni scattering and reaction dynamics around the Coulomb barrier. Phys. Rev. C. 2016; 94(2): 024622.
[16] SGOUROS O, et. al. ? and 3He production in the 7Be+28Si reaction at near-barrier energies: Direct versus compound-nucleus mechanisms. Phys. Rev. C . 2016; 94(4): 044623.
[17] TORRESI D, et. al. Evidence for 15O+? resonance structures in 19Ne via direct measurement. Phys. Rev. C. 2017; 96(4): 044317.
[18] LAMIA L, et. al. to be published
[19] Strano E, et. al. Use of the facility EXOTIC for fusion-evaporation studies. Nucl. Instr. and Meth. A. 2018; 877: 293-299.