1. Design and Status of the ELIMED Beam Line for Laser-Driven Ion Beams
    Cirrone G.A.P.,Cuttone G., Romano F., Schillaci F., Scuderi V., Amato A., Candiano G., , Costa M., G., Gallo G., Korn G., Leanza R., Manna R., Maggiore M., Marchese V., Margarone D., Milluzzo G., Petringa G.,  Tramontana A.Appl. Sci. 2015, 5(3), 427-445; doi:10.3390/app5030427
  2. Design of a large acceptance, high efficiency energy selection system for the ELIMAIA beam line 
    Schillaci F., Maggiore M., Andò L., Cirrone G.A.P.,Cuttone G., Romano F., Scuderi V., Allegra L., Amato A., G., Gallo G., Korn G., Leanza R., Margarone D., Milluzzo G., Petringa G.Journal of Instrumentation, Volume 11, August 2016
  3. Transport and dosimetric solutions for the ELIMED laser-driven beam line
    Cirrone G.A.P., Romano F., Scuderi V., Amato A., Candiano G., Cuttone G., Giove D., Korn G., Krasa J., Leanza R., Manna R., Maggiore M., Marchese V., Margarone D., Milluzzo G., Petringa G., Sabini M.G., Schillaci F., Tramontana A., Valastro L., Velyhan A.
    Nuclear Instruments and Methods in Physics Research A 796 (2015) 99–103 doi:10.1016/j.nima.2015.02.019
  4. Radiochromic film diagnostics for laser-driven ion beams
    J. Kaufman, D. Margarone, G. Candiano, I.J. Kim, T. M. Jeong, J. Pšikal, F. Romano, P. Cirrone, V. Scuderi, G. Korn
    Proc. SPIE 9515, Research Using Extreme Light: Entering New Frontiers with Petawatt-Class Lasers II, 95151J (May 1, 2015); doi:10.1117/12.2179354
  5. A new Thomson Spectrometer for high energy laser-driven beams diagnostic
    G.A.P. Cirrone, A. Tramontana, G. Candiano, M. Carpinelli, S. Cavallaro, M. Cutroneo, G. Cuttone, C. De Martinis, D. Giove, J. Krasa,
    G. Korn, M. Maggiore, D. Margarone, P. Pisciotta, J. Prokupek, F. Romano, F. Schillaci, V. Scuderi, L. Torrisi and A. Velyhan.
    2014 JINST 9 T08001 doi:10.1088/1748-0221/9/08/T08001.
  6. The Energy Selection System for the laser-accelerated proton beams at ELI-Beamlines
    A. Tramontana; G. Candiano, M. Carpinelli, G.A.P. Cirrone, G. Cuttone, S. Bijan Jia, G. Korn, T. Licciardello, M. Maggiore, L. Manti,
    D. Margarone, P. Pisciotta, F. Romano, C. Stancampiano, F. Schillaci and V. Scuderi;
    2014 JINST 9 C05065 doi:10.1088/1748-0221/9/05/C05065.
  7. Medical research with laser-driven proton beams at Eli-Beamlines: rationale and preliminary results
    F.M. Perozziello, M. Borghesi, L. Campajola, G. Candiano, M. Carpinelli, G.A.P. Cirrone, G. Cuttone, D. Doria, G. Grossi, T. Licciardello,
    P. Pisciotta, F. Romano, F. Schillaci, V. Scuderi, A. Tramontana, and L. Manti;
    41st Annual Meeting of the European Radiation Research Society.
  8. Medical research and multidisciplinary applications with laser-accelerated beams: the ELIMED netwotk at ELI-Beamlines
    A. Tramontana, A. Anzalone, G. Candiano, M. Carpinelli, G.A.P. Cirrone, G. Cuttone, G. Korn, T. Licciardello, M. Maggiore, L. Manti, D. Margarone, A. Musumarra, F. Perozziello, P. Pisciotta, L. Raffaele, F. Romano, F.P. Romano, C. Stancampiano, F. Schillaci, V. Scuderi, L. Torrisia and S. Tudisco;
    2014 JINST 9 C04026 doi:10.1088/1748-0221/9/04/C04026.
  9.  Development of an Energy Selector System for laser-driven proton beam applications
    V. Scuderi, S. Bijan Jia, M. Carpinelli, G.A.P. Cirrone, G. Cuttone, G. Korn, T. Licciardello, M. Maggiore, D. Margarone, P. Pisciotta, F. Romano, F. Schillaci, C. Stancampiano, A. Tramontana;
    NIMA_PROCEEDINGS-D-13-00258R1
  10. Diagnostic of laser-driven ion beams with a new Thomson spectrometer concept
    G. A. P. Cirrone, G. Cuttone, G. Korn, M. Maggiore, D. Margarone, L. Calabretta, F. Romano, L. Torrisi, F.Schillaci, A. Tramontana;
    LNS Activity Report 2011-2012, pag 215-217
  11. ELIMED: Medical Application at ELI-Beamlines. Status of the collaboration and first results
    Submitted to Acta Polytechninca
  12. ELIMED a new concept of Hadrontherapy with laser-driven beams
    2012 IEEE NSS-MIC Conference Record 978-1-4673-2030-6/12/N42-6 IEEE
  13. ELIMED, future hadrontherapy applications of laser-accelerated beams
    G. A. P. Cirrone, G. Korn, M. Maggiore, D. Margarone, J. Prokupek, A. Velyhan, S. B. Jia, G. Cuttone, S. Gammino, L. Manti, M. Renis, F. Romano, B. Tomasello, L. Torrisi, F. Schillaci, A. Tramontana;
    NIMA, preprint, DOI: 10.1016/j.nima.2013.05.051
  14. ELIMED: a new hadron therapy concept based on laser driven ion beams
    G. A. P. Cirrone, D. Margarone, M. Maggiore,G. Korn, G. Cuttone, F. Schillaci, V. Scuderi, A. Tramontana, J. Prokupek, A. Velyhan, S. B. Jia, L. Torrisi, S. Gammino, M. Renis, L. Manti, F. P. Romano, J. Limpouch, J. Psikal, M. Borghesi, S. S. Bulanov, S. V. Bulanov;
    Proc. SPIE 8779, Laser Acceleration of Electrons, Protons, and Ions II; and Medical Applications of Laser-Generated Beams of Particles II; and Harnessing Relativistic Plasma Waves III, 87791I (May 9, 2013); DOI:10.1117/12.2026530
  15. Beam handling and transport solutions
    M. Maggiore, G. A. P. Cirrone, M. Carpinelli, G. Cuttone, F. Romano, F. Schillaci, V. Scuderi, andA.Tramontana;
    AIP Conf. Proc. 1546, pp. 34-43; doi:http://dx.doi.org/10.1063/1.4816603
  16. High-energy resolution Thomson Parabola spectrometer for laser plasma diagnostics
    G. A. P. Cirrone, M. Carpinelli, G. Cuttone, M. Maggiore, F. Romano, F. Schillaci, S. Ter-Avetisyan, A. Tramontana, and A. Velyhan;
    AIP Conf. Proc. 1546, pp. 50-53; doi:http://dx.doi.org/10.1063/1.4816605
  17. Monte Carlo simulation for the transport beamline
    F. Romano, A. Attili, G. A. P. Cirrone, M. Carpinelli, G. Cuttone, S. B. Jia, F. Marchetto, G. Russo, F. Schillaci, V. Scuderi, A. Tramontana, and A. Varisano;
    AIP Conf. Proc. 1546, pp. 63-69; doi:http://dx.doi.org/10.1063/1.4816608
  18. Absolute and relative dosimetry for ELIMED
    G. A. P. Cirrone, G. Cuttone, G. Candiano, M. Carpinelli, E. Leonora, D. Lo Presti, A. Musumarra, P. Pisciotta, L. Raffaele, N. Randazzo, F. Romano, F. Schillaci, V. Scuderi, A. Tramontana, R. Cirio;
    AIP Conf. Proc. 1546, pp. 70-80; doi:http://dx.doi.org/10.1063/1.4816609
  19. Measurements with an innovative high energy resolution Thomson Parabola Spectrometer
    G. A. P. Cirrone et al;
    40°EPS Conference on Plasma Physics (2013), P4.207, preprint
  20. Diagnostic of laser-accelerated ion beams for the ELIMED project
    Torrisi et al.;
    AIP Conf. Proc. 1546, pp. 44-49 (2013); doi:http://dx.doi.org/10.1063/1.4816604
  21. Thomson parabola spectrometry as diagnostics of fast ion emission from laser-generated plasmas
    Torrisi et al.;
    Proc. SPIE 8779, Laser Acceleration of Electrons, Protons, and Ions II; and Medical Applications of Laser-Generated Beams of Particles II; and Harnessing Relativistic Plasma Waves III, 877912 (May 7, 2013); doi:10.1117/12.2017375
  22. Thomson parabola spectrometer for energetic ions emitted from sub-ns laser generated plasmas
    Torrisi et al.;
    Acta Polytechnica Volume 53, Issue 2, 2013, pages 138-141
  23. Nuclear fusion effects induced in intense laser-generated plasmas
    Torrisi el al.;
    Acta Polytechnica Volume 53, Issue 2, 2013, Pages 241-245
  24. Deuterium-deuterium nuclear reaction induced by high intensity laser pulses
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 42–45; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  25. XPS and XRF depth patina profiles of ancient silver coins
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 82–87; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  26. Ionic and atomic characterization of laser-generated plasmas at 5 × 109 W/cm2 pulse intensity
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 6–12; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  27. Proton emission from resonant laser absorption and self-focusing effects from hydrogenated structures
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 50–54; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  28. Silver/oxygen depth profile in coins by using laser ablation, mass quadrupole spectrometer and X-rays fluorescence
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 25–29; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  29. Influence of the ablation threshold fluence on laser-driven acceleration
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 132–137; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  30. Proton driven acceleration by intense laser pulses irradiating thin hydrogenated targets
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 2–5; 5th Workshop on Plasma Production by Laser Ablation (PPLA2013) 
  31. Analysis of laser-generated plasma ionizing radiation by synthetic single crystal diamond detectors
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 104–108; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  32. Modification in polyethylene-iron oxide joints induced by laser irradiation
    Torrisi et al.;
    Applied Surface Science Volume 272, 1 May 2013, Pages 99–103; 5th Workshop on Plasma Production by Laser Ablation (PPLA2011)
  33. Resonance absorption enhancement in laser-generated plasma ablating cu treated surfaces
    Torrisi et al.;
    Laser and Particle Beams, DOI: http://dx.doi.org/10.1017/S0263034612000936
  34. Thomson parabola spectrometry for gold laser-generated plasmas
    Torrisi et al.;
    Phys. Plasmas 20, 023106 (2013); http://dx.doi.org/10.1063/1.4793454
  35. High performance SiC detectors for MeV ion beams generated by intense pulsed laser plasmas
    Torrisi et al.;
    Journal of Materials Research Volume 28, Issue 1, 14 January 2013, Pages 87-93, DOI: 10.1557/jmr.2012.211
  36. Transport and energy selection of laser generated protons and post- acceleration with a compact linac
    S. Sinigardi et al.;
    Phy. Rev. Spec. Topics Acc. Beams 16, 031301 (2013)
  37. High quality proton beams from hybrid integrated laser-driven ion acceleration systems
    S. Sinigardi et al.;
    EAAC 2013 workshop to be published on NIM A
  38. Proton emission from thin hydrogenated targets irradiated by laser pulses at 1016 W/cm2
    Torrisi et al.;
    Rev. Sci. Instrum. 83, 02B315 (2012)
  39. Full characterization of laser-accelerated ion beams using Faraday cup, silicon carbide, and single-crystal diamond detectors
    Margarone et al.;
    J. of Appl. Phys. 109, 103302 (2011)
  40. Single crystal silicon carbide detector of emitted ions and soft x-rays from power laser-generated plasmas
    Torrisi et al.;
    J. Appl. Phys. 105, 123304 (2009)
  41. Experimental studies of generation of 100 MeV Au-ions from the laser-produced plasma
    Laska et al.;
    Laser and Particle Beams (2009), 27, 137-14
  42. Diagnostic for the radiotherapy use of laser accelerated proton beams
    G.A.P. Cirrone et al.;
    Radiation Effects and Defects in Solids, January 2008, 1-7 
  43. Design and realization of a Thomson Spectrometer for Laser Plasma Facilities
    M.Maggiore et al.;
    Nejaka Hlavicka 123 (2020), 123-456

 

 

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