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571 results on '"Labate, L."'

52. Bremsstrahlung cannon design for shock ignition relevant regime

Author

Koester, P., Baffigi, F., Cristoforetti, G., Labate, L., Gizzi, L., Sophie Baton, Koenig, M., Colaïtis, A., Batani, D., Casner, A., Raffestin, D., Tentori, A., Trela, J., Rousseaux, C., Boutoux, G., Brygoo, S., Jacquet, L., Reverdin, C., Le Bel, E., Le-Deroff, L., Theobald, W., Shigemori, K., Istituto Nazionale di Ottica (INO), National Research Council of Italy | Consiglio Nazionale delle Ricerche (CNR), Laboratoire pour l'utilisation des lasers intenses (LULI), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-École polytechnique (X)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Centre d'Etudes Lasers Intenses et Applications (CELIA), Université de Bordeaux (UB)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS), DAM Île-de-France (DAM/DIF), Direction des Applications Militaires (DAM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Commissariat à l'Energie Atomique et aux Energies Alternatives (CEA-CESTA), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratory for lasers energetics - LLE (New-York, USA), University of Rochester [USA], Institute of laser Engineering, Osaka University [Osaka], ANR-10-EQPX-0042,PETAL +,Diagnostics Plasma pour l'installation PETAL sur le LMJ(2010), ANR-10-IDEX-0003,IDEX BORDEAUX,Initiative d'excellence de l'Université de Bordeaux(2010), European Project, Consiglio Nazionale delle Ricerche (CNR), and Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Bordeaux (UB)

Subjects
Inertial Confinement Fusion, [PHYS.PHYS]Physics [physics]/Physics [physics], [PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], Physics::Plasma Physics, Astrophysics::High Energy Astrophysical Phenomena, Physics::Optics, ComputingMilieux_MISCELLANEOUS
Abstract

We report on the optimization of a BremsStrahlung Cannon (BSC) design for the investigation of laser-driven fast electron populations in a shock ignition relevant experimental campaign at the Laser Megajoule-PETawatt Aquitaine Laser facility. In this regime with laser intensities of 10(15) W/cm(2)-10(16) W/cm(2), fast electrons with energies

Published
2021
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57. Nuclear fragment identification with ΔE-E telescopes exploiting silicon carbide detectors

Author

Ciampi, (Ciampi, C, ( 1, C., Pasquali, 2, (Pasquali, G, ( 1, G., Altana, 2, (Altana, C, ( 3 ), C., Bini, (Bini, M, ( 1, M., Boscardin, 2, (Boscardin, M, ( 4, M., Calcagno, 5, (Calcagno, L, ( 6, L., Casini, 7, (Casini, G, ( 2 ), G., Cirrone, Gap, (Cirrone, ( 3 ), G. A. P., Fazzi, (Fazzi, A, ( 8, A., Giove, 9, (Giove, D, ( 8, D., Gorini, 9, (Gorini, G, ( 10, G., 11, ), Labate, (Labate, L, ( 12 ), L., Via, La, F (La Via, ( 3, F., 13, ), Lanzalone, Gaetano, (Lanzalone, G, ( 3, G., 14, ), Litrico, (Litrico, G, ( 15 ), G., Muoio, (Muoio, A, ( 3 ), A., Ottanelli, (Ottanelli, P, ( 1, P., Poggi, 2, (Poggi, G, Puglia, 2, Smr, (Puglia, ( 3 ), S. M. R., Rebai, (Rebai, M, ( 10, M., 16, ), Ronchin, (Ronchin, S, ( 4, S., Santangelo, 5, (Santangelo, A, ( 17 ), A., Stefanini, MARZIA ALESSANDRA, (Stefanini, Aa, ( 1, A. A., Trifiro, 2, (Trifiro, A, ( 6, A., 18, ), Tudisco, (Tudisco, S, ( 3 ), S., Zimbone, (Zimbone, M, ( 13, M., Ciampi, C, Pasquali, G, Altana, C, Bini, M, Boscardin, M, Calcagno, L, Casini, G, Cirrone, G, Fazzi, A, Giove, D, Gorini, G, Labate, L, La Via, F, Lanzalone, G, Litrico, G, Muoio, A, Ottanelli, P, Poggi, G, Puglia, S, Rebai, M, Ronchin, S, Santangelo, A, Stefanini, A, Trifiro, A, Tudisco, S, and Zimbone, M

Subjects
Identification methods, Nuclear and High Energy Physics, Silicon, Physics::Instrumentation and Detectors, chemistry.chemical_element, Silicon carbide detectors, chemistry.chemical_compound, Condensed Matter::Materials Science, Delta E-E telescope, Silicon carbide, Pulse shape analysis, Nuclear fragment identification, Nuclear Experiment, Instrumentation, Pulse shape analysi, Physics, Fragment (computer graphics), business.industry, E-E telescope, Detector, ΔE-E telescope, Identification (information), chemistry, Silicon carbide detector, Optoelectronics, business
Abstract

A study of the response of three Δ E-E telescopes to fragments produced in nuclear interactions at 40 AMeV is presented. All the employed telescopes feature silicon carbide (SiC) detectors for at least one detection stage. Two identification methods have been used and their performance discussed: the Δ E-E technique and the Pulse Shape Analysis technique (for identification of nuclear fragments stopped in a single SiC layer). Identification capabilities similar to those obtained with the best available silicon detectors have been found for the SiC detector prototypes studied in this work.

Published
2019
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58. Silicon carbide for future intense luminosity nuclear physics investigations

Author

Tudisco S., Altana C., Boscardin M., Calcagno L., Ciampi C., Cirrone G. A. P., Fazzi A., Giove D., Gorini G., Labate L., La Via F., Lanzalone G., Litrico G., Muoio A., Pasquali G., Puglia S. M. R., Rebai M., Ronchin S., Santangelo A., Scuderi V., Trifiro A., Zimbone M., Tudisco, S, Altana, C, Boscardin, M, Calcagno, L, Ciampi, C, Cirrone, G, Fazzi, A, Giove, D, Gorini, G, Labate, L, La Via, F, Lanzalone, G, Litrico, G, Muoio, A, Pasquali, G, Puglia, S, Rebai, M, Ronchin, S, Santangelo, A, Scuderi, V, Trifiro, A, and Zimbone, M

Subjects
silicon carbide, nuclear physics, Condensed Matter::Materials Science, Physics::Instrumentation and Detectors, Physics::Accelerator Physics, High Energy Physics::Experiment, CROSS-SECTION, IRRADIATION, PROTON, RAY
Abstract

Silicon carbide (SiC) is one of the compound semiconductor which has been considered as a potential alternative to Silicon for the fabrication of radiation hard particles detectors. Material, detectors implementation and possible application in the future INFN projects has been discussed.

Published
2019
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59. Sicilia—silicon carbide detectors for intense luminosity investigations and applications

Author

Tudisco, S, La Via, F, Agodi, C, Altana, C, Borghi, G, Boscardin, M, Bussolino, G, Calcagno, L, Camarda, M, Cappuzzello, F, Carbone, D, Cascino, S, Casini, G, Cavallaro, M, Ciampi, C, Cirrone, G, Cuttone, G, Fazzi, A, Giove, D, Gorini, G, Labate, L, Lanzalone, G, Litrico, G, Longo, G, Presti, D, Mauceri, M, Modica, R, Moschetti, M, Muoio, A, Musumeci, F, Pasquali, G, Petringa, G, Piluso, N, Poggi, G, Privitera, S, Puglia, S, Puglisi, V, Rebai, M, Ronchin, S, Santangelo, A, Stefanini, A, Trifiro, A, Zimbone, M, Tudisco S., La Via F., Agodi C., Altana C., Borghi G., Boscardin M., Bussolino G., Calcagno L., Camarda M., Cappuzzello F., Carbone D., Cascino S., Casini G., Cavallaro M., Ciampi C., Cirrone G., Cuttone G., Fazzi A., Giove D., Gorini G., Labate L., Lanzalone G., Litrico G., Longo G., Presti D. L., Mauceri M., Modica R., Moschetti M., Muoio A., Musumeci F., Pasquali G., Petringa G., Piluso N., Poggi G., Privitera S., Puglia S., Puglisi V., Rebai M., Ronchin S., Santangelo A., Stefanini A., Trifiro A., Zimbone M., Tudisco, S, La Via, F, Agodi, C, Altana, C, Borghi, G, Boscardin, M, Bussolino, G, Calcagno, L, Camarda, M, Cappuzzello, F, Carbone, D, Cascino, S, Casini, G, Cavallaro, M, Ciampi, C, Cirrone, G, Cuttone, G, Fazzi, A, Giove, D, Gorini, G, Labate, L, Lanzalone, G, Litrico, G, Longo, G, Presti, D, Mauceri, M, Modica, R, Moschetti, M, Muoio, A, Musumeci, F, Pasquali, G, Petringa, G, Piluso, N, Poggi, G, Privitera, S, Puglia, S, Puglisi, V, Rebai, M, Ronchin, S, Santangelo, A, Stefanini, A, Trifiro, A, Zimbone, M, Tudisco S., La Via F., Agodi C., Altana C., Borghi G., Boscardin M., Bussolino G., Calcagno L., Camarda M., Cappuzzello F., Carbone D., Cascino S., Casini G., Cavallaro M., Ciampi C., Cirrone G., Cuttone G., Fazzi A., Giove D., Gorini G., Labate L., Lanzalone G., Litrico G., Longo G., Presti D. L., Mauceri M., Modica R., Moschetti M., Muoio A., Musumeci F., Pasquali G., Petringa G., Piluso N., Poggi G., Privitera S., Puglia S., Puglisi V., Rebai M., Ronchin S., Santangelo A., Stefanini A., Trifiro A., and Zimbone M.

Abstract

Silicon carbide (SiC) is a compound semiconductor, which is considered as a possible alternative to silicon for particles and photons detection. Its characteristics make it very promising for the next generation of nuclear and particle physics experiments at high beam luminosity. Silicon Carbide detectors for Intense Luminosity Investigations and Applications (SiCILIA) is a project starting as a collaboration between the Italian National Institute of Nuclear Physics (INFN) and IMM-CNR, aiming at the realization of innovative detection systems based on SiC. In this paper, we discuss the main features of silicon carbide as a material and its potential application in the field of particles and photons detectors, the project structure and the strategies used for the prototype realization, and the first results concerning prototype production and their performance.

Published
2018

60. X-ray spectroscopic diagnostics of ultrashort laser-cluster interaction at the stage of the nonadiabatic scattering of clusters

Author

Faenov, A. Ya., Magunov, A. I., Pikuz, T. A., Skobelev, I. Yu., Giulietti, D., Betti, S., Galimberti, M., Gamucci, A., Giulietti, A., Gizzi, L. A., Labate, L., Levato, T., Tomassini, P., Marques, J. R., Bourgeois, N., Dobosz-Dufrenoy, S., Ceccotti, T., Monot, P., Reau, F., Popescu, H., D’Oliveira, P., Martin, Ph., Fukuda, Y., Boldarev, A. S., Gasilov, S. V., and Gasilov, V. A.

Published
2007
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61. Study of nuclear reactions in laser plasmas at future ELI-NP facility

Author

Lanzalone G., Altana C., Anzalone A., Cappuzzello F., Cavallaro M., Gizzi L. A., Labate L., Lamia L., Mascali D., Muoio A., Negoita F., Odorici F., Petrascu H., Trifirò A., Trimarchi M., and Tudisco S.

Subjects
Physics, QC1-999
Abstract

In this contribution we will present the future activities that our collaboration will carry out at ELI-NP (Extreme Light Infrastructure Nuclear Physics), the new multi peta-watt Laser facility, currently under construction at Bucharest (Romania). The activities concerns the study of nuclear reactions in laser plasmas. In this framework we proposed the construction of a new, general-purpose experimental set-up able to detect and identify neutrons and charged particles.

Published
2016
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64. Laser-driven proton acceleration via excitation of surface plasmon polaritons into TiO2nanotube array targets

Author

Cristoforetti, G, Cristoforetti, G, Baffigi, F, Brandi, F, D'Arrigo, G, Fazzi, A, Fulgentini, L, Giove, D, Koester, P, Labate, L, Maero, G, Palla, D, Romé, M, Russo, R, Terzani, D, Tomassini, P, Gizzi, LA, Cristoforetti, G, Cristoforetti, G, Baffigi, F, Brandi, F, D'Arrigo, G, Fazzi, A, Fulgentini, L, Giove, D, Koester, P, Labate, L, Maero, G, Palla, D, Romé, M, Russo, R, Terzani, D, Tomassini, P, and Gizzi, LA

Abstract

In this paper we report the measurement of laser-driven proton acceleration obtained by irradiating nanotube array targets with ultrashort laser pulses at an intensity in excess of 1020 W cm-2. The energetic spectra of forward accelerated protons show a larger flux and a higher proton cutoff energy if compared to flat foils of comparable thickness. Particle-In-Cell 2D simulations reveal that packed nanotube targets favour a better laser-plasma coupling and produce an efficient generation of fast electrons moving through the target. Due to their sub-wavelength size, the propagation of e.m. field into the tubes is made possible by the excitation of Surface Plasmon Polaritons, travelling down to the end of the target and assuring a continuous electron acceleration. The higher amount and energy of these electrons result in turn in a stronger electric sheath field on the rear surface of the target and in a more efficient acceleration of the protons via the target normal sheath acceleration mechanism.

Published
2020

68. Intense proton acceleration in ultrarelativistic interaction with nanochannels

Author

Gizzi, L. A., primary, Cristoforetti, G., additional, Baffigi, F., additional, Brandi, F., additional, D'Arrigo, G., additional, Fazzi, A., additional, Fulgentini, L., additional, Giove, D., additional, Koester, P., additional, Labate, L., additional, Maero, G., additional, Palla, D., additional, Romé, M., additional, Russo, M., additional, Terzani, D., additional, and Tomassini, P., additional

Published
2020
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74. Nuclear Reactions Studies in Laser-Plasmas at the forthcoming ELI-NP facilities

Author

Lanzalone, (Lanzalone, G, ( 1, G., Muoio, 2, (Muoio, A, ( 1, A., Altana, 4, (Altana, C, ( 1, C., Frassetto, 3, (Frassetto, M, ( 5 ), M., Malferrari, (Malferrari, L, ( 5 ), L., Mascali, (Mascali, D, ( 1 ), D., Odorici, (Odorici, F, ( 5 ), F., Tudisco, (Tudisco, S, ( 1 ), S., Gizzi, (Gizzi, La, ( 6, L. A., Labate, 7, (Labate, L, ( 6, L., Puglia, 7, Smr, (Puglia, ( 1 ), S. M. R., and Trifiro, A

Subjects
Nuclear reaction, Physics, History, ION-ACCELERATION, REACTION-RATES, ASTROPHYSICS, PHYSICS, Solid-state physics, Plasma, Laser, Charged particle, Particle detector, Spectral line, Computer Science Applications, Education, law.invention, Ion, Nuclear physics, law
Published
2018

75. Lasers for Novel Accelerators

Author

Gizzi, L.A., primary, Koester, P., additional, Labate, L., additional, Mathieu, F., additional, Mazzotta, Z., additional, Toci, G., additional, and Vannini, M., additional

Published
2019
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76. Eupraxia, A Step Toward A Plasma-Wakefield Based Accelerator With High Beam Quality

Author

Nghiem, P A P, primary, Alesini, D, additional, Aschikhin, A, additional, Assmann, R W, additional, Audet, T, additional, Beck, A, additional, Chance, A, additional, Chen, M, additional, Chiadroni, E, additional, Cianchi, A, additional, Clarke, J A, additional, Couprie, M E, additional, Croia, M, additional, Cros, B, additional, Dattoli, G, additional, Del Dotto, A, additional, Delerue, N, additional, Dorda, U, additional, Ferran Pousa, A, additional, Ferrario, M, additional, Fonseca, R A, additional, Ghaith, A, additional, Giribono, A, additional, Gizzi, L A, additional, Helm, A, additional, Hidding, B, additional, Hooker, S M, additional, Ibison, M G, additional, Jaroszynski, D A, additional, Kruchinin, K O, additional, Labate, L, additional, Lee, P, additional, Li, X, additional, Li, F Y, additional, Libov, V, additional, Marchetti, B, additional, Martinez de la Ossa, A, additional, Marx, D, additional, Massimo, F, additional, Mathieu, F, additional, Maynard, G, additional, Mazzotta, Z, additional, Mehrling, T J, additional, Molodozhentsev, A Y, additional, Mosnier, A, additional, Mostacci, A, additional, Najmudin, Z, additional, Nguyen, F, additional, Niknejadi, P, additional, Oumbarek Espinos, D, additional, Pattathil, R, additional, Pompili, R, additional, Romeo, S, additional, Rossi, A R, additional, Schaper, L, additional, Sheng, Z M, additional, Shpakov, V, additional, Silva, L O, additional, Silva, T, additional, Simon, C, additional, Specka, A, additional, Stella, A, additional, Streeter, M J V, additional, Svystun, E N, additional, Symes, D, additional, Terzani, D, additional, Toci, G, additional, Tomassini, P, additional, Vaccarezza, C, additional, Vieira, J M, additional, Vujanovic, M, additional, Walczak, R, additional, Walker, P A, additional, Weikum, M K, additional, Welsch, C P, additional, Weng, S M, additional, Wiggins, S M, additional, Wolfenden, J, additional, Yoffe, S, additional, and Zhu, J, additional

Published
2019
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78. Incidence of Lung Cancer in Patients with IPF Treated by Pirfenidone or Nintedanib - a Real Life Multicentric Experience

Author

Lacedonia, D., primary, Ventura, V.A., additional, Mesto, M., additional, Iamele, L., additional, Labate, L., additional, Refolo, L., additional, Salerno, F.G., additional, de Tullio, R., additional, Tedeschi, E., additional, Rollo, M., additional, Caccavo, I., additional, Patricelli, G., additional, Profilo, E., additional, Carone, M., additional, di Napoli, P., additional, Picca, V., additional, Sabato, E., additional, Giorgio, V., additional, Resta, O., additional, and Foschino Barbaro, M.P., additional

Published
2019
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79. Nuclear fragment identification with ΔE-E telescopes exploiting silicon carbide detectors

Author

Ciampi, C., primary, Pasquali, G., additional, Altana, C., additional, Bini, M., additional, Boscardin, M., additional, Calcagno, L., additional, Casini, G., additional, Cirrone, G.A.P., additional, Fazzi, A., additional, Giove, D., additional, Gorini, G., additional, Labate, L., additional, La Via, F., additional, Lanzalone, G., additional, Litrico, G., additional, Muoio, A., additional, Ottanelli, P., additional, Poggi, G., additional, Puglia, S.M.R., additional, Rebai, M., additional, Ronchin, S., additional, Santangelo, A., additional, Stefanini, A.A., additional, Trifirò, A., additional, Tudisco, S., additional, and Zimbone, M., additional

Published
2019
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81. EuPRAXIA – a compact, cost-efficient particle and radiation source

Author

Weikum, M. K., primary, Akhter, T., additional, Alesini, P. D., additional, Alexandrova, A. S., additional, Anania, M. P., additional, Andreev, N. E., additional, Andriyash, I., additional, Aschikhin, A., additional, Assmann, R. W., additional, Audet, T., additional, Bacci, A., additional, Barna, I. F., additional, Beaton, A., additional, Beck, A., additional, Beluze, A., additional, Bernhard, A., additional, Bielawski, S., additional, Bisesto, F. G., additional, Brandi, F., additional, Bringer, O., additional, Brinkmann, R., additional, Bründermann, E., additional, Büscher, M., additional, Bussmann, M., additional, Bussolino, G. C., additional, Chance, A., additional, Chanteloup, J. C., additional, Chen, M., additional, Chiadroni, E., additional, Cianchi, A., additional, Clarke, J., additional, Cole, J., additional, Couprie, M. E., additional, Croia, M., additional, Cros, B., additional, Crump, P., additional, Dattoli, G., additional, Delerue, N., additional, Delferriere, O., additional, Delinikolas, P., additional, De Nicola, S., additional, Dias, J., additional, Dorda, U., additional, Fedele, R., additional, Pousa, A. Ferran, additional, Ferrario, M., additional, Filippi, F., additional, Fils, J., additional, Fiore, G., additional, Fonseca, R. A., additional, Galimberti, M., additional, Gallo, A., additional, Garzella, D., additional, Gastinel, P., additional, Giove, D., additional, Giribono, A., additional, Gizzi, L. A., additional, Grüner, F. J., additional, Habib, A. F., additional, Heinemann, T., additional, Hidding, B., additional, Holzer, B. J., additional, Hooker, S. M., additional, Hosokai, T., additional, Hübner, M., additional, Irman, A., additional, Jafarinia, F., additional, Jaroszynski, D. A., additional, Jaster-Merz, S., additional, Joshi, C., additional, Kaluza, M. C., additional, Kando, M., additional, Karger, O. S., additional, Karsch, S., additional, Khazanov, E., additional, Khikhlukha, D., additional, Knetsch, A., additional, Kocon, D., additional, Koester, P., additional, Kononenko, O., additional, Korn, G., additional, Kostyukov, I., additional, Kruchinin, K., additional, Labate, L., additional, Lechner, C., additional, Leemans, W. P., additional, Lehrach, A., additional, Li, F. Y., additional, Li, X., additional, Libov, V., additional, Lifschitz, A., additional, Litvinenko, V., additional, Lu, W., additional, Lundh, O., additional, Maier, A. R., additional, Malka, V., additional, Manahan, G. G., additional, Mangles, S. P. D., additional, Marchetti, B., additional, Marocchino, A., additional, de la Ossa, A. Martinez, additional, Martins, J. L., additional, Mason, P., additional, Massimo, F., additional, Mathieu, F., additional, Maynard, G., additional, Mazzotta, Z., additional, Mehrling, T. J., additional, Molodozhentsev, A. Y., additional, Mostacci, A., additional, Müller, A. S., additional, Murphy, C. D., additional, Najmudin, Z., additional, Nghiem, P. A. P., additional, Nguyen, F., additional, Niknejadi, P., additional, Osterhoff, J., additional, Papadopoulos, D., additional, Patrizi, B., additional, Petrillo, V., additional, Pocsai, M. A., additional, Poder, K., additional, Pompili, R., additional, Pribyl, L., additional, Pugacheva, D., additional, Romeo, S., additional, Rajeev, P. P., additional, Conti, M. Rossetti, additional, Rossi, A. R., additional, Rossmanith, R., additional, Roussel, E., additional, Sahai, A. A., additional, Sarri, G., additional, Schaper, L., additional, Scherkl, P., additional, Schramm, U., additional, Schroeder, C. B., additional, Schwindling, J., additional, Scifo, J., additional, Serafini, L., additional, Sheng, Z. M., additional, Silva, L. O., additional, Silva, T., additional, Simon, C., additional, Sinha, U., additional, Specka, A., additional, Streeter, M. J. V., additional, Svystun, E. N., additional, Symes, D., additional, Szwaj, C., additional, Tauscher, G., additional, Terzani, D., additional, Thompson, N., additional, Toci, G., additional, Tomassini, P., additional, Torres, R., additional, Ullmann, D., additional, Vaccarezza, C., additional, Vannini, M., additional, Vieira, J. M., additional, Villa, F., additional, Wahlström, C. -G., additional, Walczak, R., additional, Walker, P. A., additional, Wang, K., additional, Welsch, C. P., additional, Wolfenden, J., additional, Xia, G., additional, Yabashi, M., additional, Yu, L., additional, Zhu, J., additional, and Zigler, A., additional

Published
2019
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83. Monte Carlo application based on GEANT4 toolkit to simulate a laser-plasma electron beam line for radiobiological studies

Author

Lamia, D, Russo, G, Casarino, C, Gagliano, L, Candiano, G, Labate, L, Baffigi, F, Fulgentini, L, Giulietti, A, Koester, P, Palla, D, Gizzi, L, Gilardi, M, Lamia D., Russo G., Casarino C., Gagliano L., Candiano G. C., Labate L., Baffigi F., Fulgentini L., Giulietti A., Koester P., Palla D., Gizzi L. A., Gilardi M. C., Lamia, D, Russo, G, Casarino, C, Gagliano, L, Candiano, G, Labate, L, Baffigi, F, Fulgentini, L, Giulietti, A, Koester, P, Palla, D, Gizzi, L, Gilardi, M, Lamia D., Russo G., Casarino C., Gagliano L., Candiano G. C., Labate L., Baffigi F., Fulgentini L., Giulietti A., Koester P., Palla D., Gizzi L. A., and Gilardi M. C.

Abstract

We report on the development of a Monte Carlo application, based on the GEANT4 toolkit, for the characterization and optimization of electron beams for clinical applications produced by a laser-driven plasma source. The GEANT4 application is conceived so as to represent in the most general way the physical and geometrical features of a typical laser-driven accelerator. It is designed to provide standard dosimetric figures such as percentage dose depth curves, two-dimensional dose distributions and 3D dose profiles at different positions both inside and outside the interaction chamber. The application was validated by comparing its predictions to experimental measurements carried out on a real laser-driven accelerator. The work is aimed at optimizing the source, by using this novel application, for radiobiological studies and, in perspective, for medical applications.

Published
2015

84. Horizon 2020 EuPRAXIA design study

Author

EuPRAXIA Collaboration, Walker, P. A., Alesini, P. D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Aschikhin, A., Assmann, R. W., Audet, T., Bacci, A., Barna, I. F., Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F. G., Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G. C., Chance, A., Chanteloup, J. C., Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M. E., Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R. A., Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Haefner, L. C., Heinemann, T., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Irman, A., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M. C., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W. P., Lehrach, A., Li, F. Y., Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marchetti, B., Marocchino, A., Martinez de la Ossa, A., Martins, J. L., Massimo, F., Mathieu, F., Maynard, G., Mehrling, T. J., Molodozhentsev, A. Y., Mosnier, A., Mostacci, A., Mueller, A. S., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A. R., Roussel, E., Sahai, A. A., Scherkl, P., Schramm, U., Schroeder, C. B., Schwindling, J., Scifo, J., Serafini, L., Sheng, Z. M., Silva, L. O., Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M. J. V., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G., Thomas, A. G. R., Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J. M., Villa, F., Wahlström, C-G., Walczak, R., Weikum, M. K., Welsch, C. P., Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., Zigler, A., Nguyen, F., and Dattoli, G.

Subjects
History, Technology, high-energy physics (HEP), compact X-ray sources, 01 natural sciences, 7. Clean energy, Education, accelerator facility, Acceleration, Physics and Astronomy (all), multi-GeV electron beams, 0103 physical sciences, ddc:530, 010306 general physics, QC, plasma, compact accelerators, Physics, QC717, Plasma acceleration, Settore FIS/01, Horizon (archaeology), 010308 nuclear & particles physics, light sources, Settore FIS/07, Mechanics, Computer Science Applications, Design study, Plasma Research Accelerator, plasma accelerator, Physics::Accelerator Physics, ddc:600
Abstract

The Horizon 2020 Project EuPRAXIA ("European Plasma Research Accelerator with eXcellence In Applications") is preparing a conceptual design report of a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach and will be used for photon science, high-energy physics (HEP) detector tests, and other applications such as compact X-ray sources for medical imaging or material processing. EuPRAXIA started in November 2015 and will deliver the design report in October 2019. EuPRAXIA aims to be included on the ESFRI roadmap in 2020. © Published under licence by IOP Publishing Ltd.

Published
2017
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85. Horizon 2020 EuPRAXIA design study

Author

Walker, P. A., Alesini, P. D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Aschikhin, A., Assmann, R. W., Audet, T., Bacci, A., Barna, I. F., Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F. G., Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G. C., Chance, A., Chanteloup, J. C., Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M. E., Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Pousa, A. F., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R. A., Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Haefner, L. C., Heinemann, T., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Irman, A., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M. C., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W. P., Lehrach, A., Li, F. Y., Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marchetti, B., Marocchino, A., Ossa, A. M. D. L., Martins, J. L., Massimo, F., Mathieu, F., Maynard, G., Mehrling, T. J., Molodozhentsev, A. Y., Mosnier, A., Mostacci, A., Mueller, A. S., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A. R., Roussel, E., Sahai, A. A., Scherkl, P., Schramm, U., Schroeder, C. B., Schwindling, J., Scifo, J., Serafini, L., Sheng, Z. M., Silva, L. O., Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M. J. V., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G., Thomas, A. G. R., Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J. M., Villa, F., Wahlström, C.-G., Walczak, R., Weikum, M. K., Welsch, C. P., Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., and Zigler, J. Z. A.

Subjects
Plasma accelerator, Physics::Accelerator Physics
Abstract

The Horizon 2020 Project EuPRAXIA ("European Plasma Research Accelerator with eXcellence In Applications") is preparing a conceptual design report of a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach and will be used for photon science, high-energy physics (HEP) detector tests, and other applications such as compact X-ray sources for medical imaging or material processing. EuPRAXIA started in November 2015 and will deliver the design report in October 2019. EuPRAXIA aims to be included on the ESFRI roadmap in 2020.

Published
2017

86. Micro-sphere layered targets efficiency in laser driven proton acceleration.

Author

Floquet, V., Klimo, O., Psikal, J., Velyhan, A., Limpouch, J., Proska, J., Novotny, F., Stolcova, L., Macchi, A., Sgattoni, A., Vassura, L., Labate, L., Baffigi, F., Gizzi, L. A., Martin, Ph., and Ceccotti, T.

Subjects
MICROSPHERES, POLARIZATION (Nuclear physics), WAVELENGTHS, PROTONS, SURFACE geometry
Abstract

Proton acceleration from the interaction of high contrast, 25 fs laser pulses at >1019 W/cm2 intensity with plastic foils covered with a single layer of regularly packed micro-spheres has been investigated experimentally. The proton cut-off energy has been measured as a function of the micro-sphere size and laser incidence angle for different substrate thickness, and for both P and S polarization. The presence of micro-spheres with a size comparable to the laser wavelength allows to increase the proton cut-off energy for both polarizations at small angles of incidence (10°). For large angles of incidence, however, proton energy enhancement with respect to flat targets is absent. Analysis of electron trajectories in particle-in-cell simulations highlights the role of the surface geometry in the heating of electrons. [ABSTRACT FROM AUTHOR]

Published
2013
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87. Laser-driven proton acceleration via excitation of surface plasmon polaritons into TiO2 nanotube array targets.

Author

Cristoforetti, G, Baffigi, F, Brandi, F, D'Arrigo, G, Fazzi, A, Fulgentini, L, Giove, D, Koester, P, Labate, L, Maero, G, Palla, D, Romé, M, Russo, R, Terzani, D, Tomassini, P, and Gizzi, L A

Subjects
POLARITONS, ULTRASHORT laser pulses, TITANIUM dioxide, PROTONS, ELECTRIC fields
Abstract

In this paper we report the measurement of laser-driven proton acceleration obtained by irradiating nanotube array targets with ultrashort laser pulses at an intensity in excess of 1020 W cm−2. The energetic spectra of forward accelerated protons show a larger flux and a higher proton cutoff energy if compared to flat foils of comparable thickness. Particle-In-Cell 2D simulations reveal that packed nanotube targets favour a better laser-plasma coupling and produce an efficient generation of fast electrons moving through the target. Due to their sub-wavelength size, the propagation of e.m. field into the tubes is made possible by the excitation of Surface Plasmon Polaritons, travelling down to the end of the target and assuring a continuous electron acceleration. The higher amount and energy of these electrons result in turn in a stronger electric sheath field on the rear surface of the target and in a more efficient acceleration of the protons via the target normal sheath acceleration mechanism. [ABSTRACT FROM AUTHOR]

Published
2020
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89. Light Ion Accelerating Line (L3IA): Test experiment at ILIL-PW

Author

Gizzi, L.A., primary, Baffigi, F., additional, Brandi, F., additional, Bussolino, G., additional, Cristoforetti, G., additional, Fazzi, A., additional, Fulgentini, L., additional, Giove, D., additional, Koester, P., additional, Labate, L., additional, Maero, G., additional, Palla, D., additional, Romé, M., additional, and Tomassini, P., additional

Published
2018
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90. EuPRAXIA@SPARC_LAB Design study towards a compact FEL facility at LNF

Author

Ferrario, M., primary, Alesini, D., additional, Anania, M.P., additional, Artioli, M., additional, Bacci, A., additional, Bartocci, S., additional, Bedogni, R., additional, Bellaveglia, M., additional, Biagioni, A., additional, Bisesto, F., additional, Brandi, F., additional, Brentegani, E., additional, Broggi, F., additional, Buonomo, B., additional, Campana, P.L., additional, Campogiani, G., additional, Cannaos, C., additional, Cantarella, S., additional, Cardelli, F., additional, Carpanese, M., additional, Castellano, M., additional, Castorina, G., additional, Lasheras, N. Catalan, additional, Chiadroni, E., additional, Cianchi, A., additional, Cimino, R., additional, Ciocci, F., additional, Cirrincione, D., additional, Cirrone, G.A.P., additional, Clementi, R., additional, Coreno, M., additional, Corsini, R., additional, Croia, M., additional, Curcio, A., additional, Costa, G., additional, Curatolo, C., additional, Cuttone, G., additional, Dabagov, S., additional, Dattoli, G., additional, D’Auria, G., additional, Debrot, I., additional, Diomede, M., additional, Drago, A., additional, Di Giovenale, D., additional, Mitri, S. Di, additional, Di Pirro, G., additional, Esposito, A., additional, Faiferri, M., additional, Ficcadenti, L., additional, Filippi, F., additional, Frasciello, O., additional, Gallo, A., additional, Ghigo, A., additional, Giannessi, L., additional, Giribono, A., additional, Gizzi, L., additional, Grudiev, A., additional, Guiducci, S., additional, Koester, P., additional, Incremona, S., additional, Iungo, F., additional, Labate, L., additional, Latina, A., additional, Licciardi, S., additional, Lollo, V., additional, Lupi, S., additional, Manca, R., additional, Marcelli, A., additional, Marini, M., additional, Marocchino, A., additional, Marongiu, M., additional, Martinelli, V., additional, Masciovecchio, C., additional, Mastino, C., additional, Michelotti, A., additional, Milardi, C., additional, Minicozzi, V., additional, Mira, F., additional, Morante, S., additional, Mostacci, A., additional, Nguyen, F., additional, Pagnutti, S., additional, Pellegrino, L., additional, Petralia, A., additional, Petrillo, V., additional, Piersanti, L., additional, Pioli, S., additional, Polese, D., additional, Pompili, R., additional, Pusceddu, F., additional, Ricci, A., additional, Ricci, R., additional, Rochow, R., additional, Romeo, S., additional, Rosenzweig, J.B., additional, Conti, M. Rossetti, additional, Rossi, A.R., additional, Rotundo, U., additional, Sabbatini, L., additional, Sabia, E., additional, Plannell, O. Sans, additional, Schulte, D., additional, Scifo, J., additional, Scuderi, V., additional, Serafini, L., additional, Spataro, B., additional, Stecchi, A., additional, Stella, A., additional, Shpakov, V., additional, Stellato, F., additional, Turco, E., additional, Vaccarezza, C., additional, Vacchi, A., additional, Vannozzi, A., additional, Variola, A., additional, Vescovi, S., additional, Villa, F., additional, Wuensch, W., additional, Zigler, A., additional, and Zobov, M., additional

Published
2018
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94. Experimental observation of parametric instabilities at laser intensities relevant for shock ignition

Author

Cristoforetti, G., Colaitis, A., Antonelli, L., Atzeni, S., Baffigi, F., Batani, D., Barbato, F., Boutoux, G., Dudzak, R., Koester, P., Krousky, E., Labate, L., Nicolai, Ph., Renner, O., Škorić, Miloš M., Tikhonchuk, V., Gizzi, L. A., Cristoforetti, G., Colaitis, A., Antonelli, L., Atzeni, S., Baffigi, F., Batani, D., Barbato, F., Boutoux, G., Dudzak, R., Koester, P., Krousky, E., Labate, L., Nicolai, Ph., Renner, O., Škorić, Miloš M., Tikhonchuk, V., and Gizzi, L. A.

Abstract

We report measurements of parametric instabilities and hot electron generation in a laser intensity regime up to 6 x 10(15) W/cm(2), typical of the shock ignition approach to inertial fusion. Experiments performed at the PALS laboratory in Prague show that the incident laser energy losses are dominated by Stimulated Brillouin Scattering (SBS) rather than by Stimulated Raman Scattering (SRS) or Two-Plasmon Decay (TPD). Results are compared to hydrodynamics simulations using a code that includes self-consistent calculations of non-linear laser plasma interactions and accounts for the laser intensity statistics contained in the beam speckles. Good agreement is found for the backscattered SRS light, and for temperature and flux of hot electrons. The effect of high-intensity speckles on backscattered SRS is also underlined numerically and experimentally. Copyright (C) EPLA, 2017

Published
2017

95. Horizon 2020 EuPRAXIA design study

Author

Walker, P A, Alesini, P D, Alexandrova, A S, Anania, M P, Andreev, N E, Andriyash, I., Aschikhin, A., Assmann, R W, Audet, T., Bacci, A., Barna, I F, Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F G, Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G C, Chance, A., Chanteloup, J C, Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M E, Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R A, Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L A, Grüner, F J, Habib, A F, Haefner, L C, Heinemann, T., Hidding, B., Holzer, B J, Hooker, S M, Hosokai, T., Irman, A., Jaroszynski, D A, Jaster-Merz, S., Joshi, C., Kaluza, M C, Kando, M., Karger, O S, Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W P, Lehrach, A., Li, F Y, Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A R, Malka, V., Manahan, G G, Mangles, S P D, Marchetti, B., Marocchino, A., Martinez de la Ossa, A, Martins, J L, Massimo, F., Mathieu, F., Maynard, G., Mehrling, T J, Molodozhentsev, A Y, Mosnier, A., Mostacci, A., Mueller, A S, Najmudin, Z., Nghiem, P A P, Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M A, Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A R, Roussel, E., Sahai, A A, Scherkl, P., Schramm, U., Schroeder, C B, Schwindling, J., Scifo, J., Serafini, L., Sheng, Z M, Silva, L O, Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M J V, Svystun, E N, Symes, D., Szwaj, C., Tauscher, G., Thomas, A G R, Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J M, Villa, F., Wahlström, C.-G., Walczak, R., Weikum, M K, Welsch, C P, Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., Zigler, A., Walker, P A, Alesini, P D, Alexandrova, A S, Anania, M P, Andreev, N E, Andriyash, I., Aschikhin, A., Assmann, R W, Audet, T., Bacci, A., Barna, I F, Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F G, Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G C, Chance, A., Chanteloup, J C, Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M E, Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R A, Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L A, Grüner, F J, Habib, A F, Haefner, L C, Heinemann, T., Hidding, B., Holzer, B J, Hooker, S M, Hosokai, T., Irman, A., Jaroszynski, D A, Jaster-Merz, S., Joshi, C., Kaluza, M C, Kando, M., Karger, O S, Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W P, Lehrach, A., Li, F Y, Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A R, Malka, V., Manahan, G G, Mangles, S P D, Marchetti, B., Marocchino, A., Martinez de la Ossa, A, Martins, J L, Massimo, F., Mathieu, F., Maynard, G., Mehrling, T J, Molodozhentsev, A Y, Mosnier, A., Mostacci, A., Mueller, A S, Najmudin, Z., Nghiem, P A P, Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M A, Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A R, Roussel, E., Sahai, A A, Scherkl, P., Schramm, U., Schroeder, C B, Schwindling, J., Scifo, J., Serafini, L., Sheng, Z M, Silva, L O, Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M J V, Svystun, E N, Symes, D., Szwaj, C., Tauscher, G., Thomas, A G R, Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J M, Villa, F., Wahlström, C.-G., Walczak, R., Weikum, M K, Welsch, C P, Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., and Zigler, A.

Abstract

The Horizon 2020 Project EuPRAXIA ("European Plasma Research Accelerator with eXcellence In Applications") is preparing a conceptual design report of a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach and will be used for photon science, high-energy physics (HEP) detector tests, and other applications such as compact X-ray sources for medical imaging or material processing. EuPRAXIA started in November 2015 and will deliver the design report in October 2019. EuPRAXIA aims to be included on the ESFRI roadmap in 2020.

Published
2017

96. First electrons from the new 220 TW Frascati Laser for Acceleration and Multidisciplinary Experiments (FLAME) at Frascati National Laboratories (LNF)

Author

Levato, T, Calvetti, M, Anelli, F, Batani, D, Benocci, R, Cacciotti, L, Cecchetti, C, Cerafogli, O, Chimenti, P, Clozza, A, Drenska, N, Esposito, A, Faccini, R, Fioravanti, S, Gamucci, A, Gatti, C, Giulietti, A, Giulietti, D, Labate, L, Lollo, V, Martellotti, S, Monteduro, M, Pace, E, Pathak, N, Pellegrino, L, Piastra, F, Pistoni, M, Di Pirro, G, Di Raddo, R, Rotundo, U, Ricci, R, Richetta, M, Vaccarezza, C, Valente, P, Gizzi, L, Levato T., Calvetti M., Anelli F., Batani D., Benocci R., Cacciotti L., Cecchetti C. A., Cerafogli O., Chimenti P., Clozza A., Drenska N., Esposito A., Faccini R., Fioravanti S., Gamucci A., Gatti C., Giulietti A., Giulietti D., Labate L., Lollo V., Martellotti S., Monteduro M., Pace E., Pathak N. C., Pellegrino L., Piastra F., Pistoni M., Di Pirro G., Di Raddo R., Rotundo U., Ricci R., Richetta M., Vaccarezza C., Valente P., Gizzi L. A., Levato, T, Calvetti, M, Anelli, F, Batani, D, Benocci, R, Cacciotti, L, Cecchetti, C, Cerafogli, O, Chimenti, P, Clozza, A, Drenska, N, Esposito, A, Faccini, R, Fioravanti, S, Gamucci, A, Gatti, C, Giulietti, A, Giulietti, D, Labate, L, Lollo, V, Martellotti, S, Monteduro, M, Pace, E, Pathak, N, Pellegrino, L, Piastra, F, Pistoni, M, Di Pirro, G, Di Raddo, R, Rotundo, U, Ricci, R, Richetta, M, Vaccarezza, C, Valente, P, Gizzi, L, Levato T., Calvetti M., Anelli F., Batani D., Benocci R., Cacciotti L., Cecchetti C. A., Cerafogli O., Chimenti P., Clozza A., Drenska N., Esposito A., Faccini R., Fioravanti S., Gamucci A., Gatti C., Giulietti A., Giulietti D., Labate L., Lollo V., Martellotti S., Monteduro M., Pace E., Pathak N. C., Pellegrino L., Piastra F., Pistoni M., Di Pirro G., Di Raddo R., Rotundo U., Ricci R., Richetta M., Vaccarezza C., Valente P., and Gizzi L. A.

Abstract

A new era of laser based plasma accelerators is emerging following the commissioning of many high power laser facilities around the world. Extremely short (tens of fs) laser pulses with energy of multi-joules level are available at these newly built facilities. Here we describe the new 220 TW FLAME facility. In particular we discuss the laser system general layout, the main measurements on the laser pulse parameters, the underground target area. Finally we give an overview of the first results of the Self-Injection Test Experiment (SITE), obtained at a low laser energy. This initial low laser energy experimental campaign was necessary for the validation of the radio-protection shielding (Esposito, 2011 [1]) we discuss here. With respect to our preliminary configuration, with a pulse duration of 30 fs and a focusing optic of F/15, we discuss here the minimum laser energy requirements for electron acceleration and the forward transmitted optical radiation. (C) 2012 Elsevier B.V. All rights reserved.

Published
2013

97. Micron-scale mapping of megagauss magnetic fields using optical polarimetry to probe hot electron transport in petawatt-class laser-solid interactions

Author

Chatterjee, Gourab, primary, Singh, Prashant Kumar, additional, Robinson, A. P. L., additional, Blackman, D., additional, Booth, N., additional, Culfa, O., additional, Dance, R. J., additional, Gizzi, L. A., additional, Gray, R. J., additional, Green, J. S., additional, Koester, P., additional, Kumar, G. Ravindra, additional, Labate, L., additional, Lad, Amit D., additional, Lancaster, K. L., additional, Pasley, J., additional, Woolsey, N. C., additional, and Rajeev, P. P., additional

Published
2017
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98. Horizon 2020 EuPRAXIA design study

Author

Walker, P A, primary, Alesini, P D, additional, Alexandrova, A S, additional, Anania, M P, additional, Andreev, N E, additional, Andriyash, I, additional, Aschikhin, A, additional, Assmann, R W, additional, Audet, T, additional, Bacci, A, additional, Barna, I F, additional, Beaton, A, additional, Beck, A, additional, Beluze, A, additional, Bernhard, A, additional, Bielawski, S, additional, Bisesto, F G, additional, Boedewadt, J, additional, Brandi, F, additional, Bringer, O, additional, Brinkmann, R, additional, Bründermann, E, additional, Büscher, M, additional, Bussmann, M, additional, Bussolino, G C, additional, Chance, A, additional, Chanteloup, J C, additional, Chen, M, additional, Chiadroni, E, additional, Cianchi, A, additional, Clarke, J, additional, Cole, J, additional, Couprie, M E, additional, Croia, M, additional, Cros, B, additional, Dale, J, additional, Dattoli, G, additional, Delerue, N, additional, Delferriere, O, additional, Delinikolas, P, additional, Dias, J, additional, Dorda, U, additional, Ertel, K, additional, Ferran Pousa, A, additional, Ferrario, M, additional, Filippi, F, additional, Fils, J, additional, Fiorito, R, additional, Fonseca, R A, additional, Galimberti, M, additional, Gallo, A, additional, Garzella, D, additional, Gastinel, P, additional, Giove, D, additional, Giribono, A, additional, Gizzi, L A, additional, Grüner, F J, additional, Habib, A F, additional, Haefner, L C, additional, Heinemann, T, additional, Hidding, B, additional, Holzer, B J, additional, Hooker, S M, additional, Hosokai, T, additional, Irman, A, additional, Jaroszynski, D A, additional, Jaster-Merz, S, additional, Joshi, C, additional, Kaluza, M C, additional, Kando, M, additional, Karger, O S, additional, Karsch, S, additional, Khazanov, E, additional, Khikhlukha, D, additional, Knetsch, A, additional, Kocon, D, additional, Koester, P, additional, Kononenko, O, additional, Korn, G, additional, Kostyukov, I, additional, Labate, L, additional, Lechner, C, additional, Leemans, W P, additional, Lehrach, A, additional, Li, F Y, additional, Li, X, additional, Libov, V, additional, Lifschitz, A, additional, Litvinenko, V, additional, Lu, W, additional, Maier, A R, additional, Malka, V, additional, Manahan, G G, additional, Mangles, S P D, additional, Marchetti, B, additional, Marocchino, A, additional, Martinez de la Ossa, A, additional, Martins, J L, additional, Massimo, F, additional, Mathieu, F, additional, Maynard, G, additional, Mehrling, T J, additional, Molodozhentsev, A Y, additional, Mosnier, A, additional, Mostacci, A, additional, Mueller, A S, additional, Najmudin, Z, additional, Nghiem, P A P, additional, Nguyen, F, additional, Niknejadi, P, additional, Osterhoff, J, additional, Papadopoulos, D, additional, Patrizi, B, additional, Pattathil, R, additional, Petrillo, V, additional, Pocsai, M A, additional, Poder, K, additional, Pompili, R, additional, Pribyl, L, additional, Pugacheva, D, additional, Romeo, S, additional, Rossi, A R, additional, Roussel, E, additional, Sahai, A A, additional, Scherkl, P, additional, Schramm, U, additional, Schroeder, C B, additional, Schwindling, J, additional, Scifo, J, additional, Serafini, L, additional, Sheng, Z M, additional, Silva, L O, additional, Silva, T, additional, Simon, C, additional, Sinha, U, additional, Specka, A, additional, Streeter, M J V, additional, Svystun, E N, additional, Symes, D, additional, Szwaj, C, additional, Tauscher, G, additional, Thomas, A G R, additional, Thompson, N, additional, Toci, G, additional, Tomassini, P, additional, Vaccarezza, C, additional, Vannini, M, additional, Vieira, J M, additional, Villa, F, additional, Wahlström, C-G, additional, Walczak, R, additional, Weikum, M K, additional, Welsch, C P, additional, Wiemann, C, additional, Wolfenden, J, additional, Xia, G, additional, Yabashi, M, additional, Yu, L, additional, Zhu, J, additional, and Zigler, A, additional

Published
2017
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99. Experimental investigation of ion production and acceleration mechanism in laser-produced plasma at moderate intensity for nuclear studies @ ELI-NP

Author

Altana, C., primary, Tudisco, S., additional, Lanzalone, G., additional, Mascali, D., additional, Muoio, A., additional, Brandi, F., additional, Cristoforetti, G., additional, Ferrara, P., additional, Fulgentini, L., additional, Koester, P., additional, Labate, L., additional, Palla, D., additional, and Gizzi, L., additional

Published
2017
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100. Experimental observation of parametric instabilities at laser intensities relevant for shock ignition

Author

Cristoforetti, G., primary, Colaïtis, A., additional, Antonelli, L., additional, Atzeni, S., additional, Baffigi, F., additional, Batani, D., additional, Barbato, F., additional, Boutoux, G., additional, Dudzak, R., additional, Koester, P., additional, Krousky, E., additional, Labate, L., additional, Nicolaï, Ph., additional, Renner, O., additional, Skoric, M., additional, Tikhonchuk, V., additional, and Gizzi, L. A., additional

Published
2017
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