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Journal Articles

Observation of plasma density dependence of electromagnetic soliton excitation by an intense laser pulse

Sarri, G.*; Kar, S.*; Romagnani, L.*; Bulanov, S. V.; Cecchetti, C. A.*; Galimberti, M.*; Gizzi, L. A.*; Heathcote, R.*; Jung, R.*; Kourakis, I.*; et al.

Physics of Plasmas, 18(8), p.080704_1 - 080704_4, 2011/10

 Times Cited Count:20 Percentile:64.42(Physics, Fluids & Plasmas)

Journal Articles

Observation of magnetized soliton remnants in the wake of intense laser pulse propagation through plasmas

Romagnani, L.*; Bigongiari, A.*; Kar, S.*; Bulanov, S. V.; Cecchetti, C. A.*; Esirkepov, T. Z.; Galimberti, M.*; Jung, R.*; Liseykina, T. V.*; Osterholz, J.*; et al.

Physical Review Letters, 105(17), p.175002_1 - 175002_4, 2010/10

 Times Cited Count:37 Percentile:81.86(Physics, Multidisciplinary)

Journal Articles

Laser-driven proton acceleration; Source optimization and radiographic applications

Borghesi, M.*; Bigongiari, A.*; Kar, S.*; Macchi, A.*; Romagnani, L.*; Audebert, P.*; Fuchs, A.*; Toncian, T.*; Willi, O.*; Bulanov, S. V.; et al.

Plasma Physics and Controlled Fusion, 50(12), p.124040_1 - 124040_10, 2008/12

 Times Cited Count:63 Percentile:91.75(Physics, Fluids & Plasmas)

Journal Articles

Observation of collisionless shocks in laser-plasma experiments

Romagnani, L.*; Bulanov, S. V.; Borghesi, M.*; Audebert, P.*; Gauthier, J. C.*; L$"o$wenbr$"u$ck, K.*; Mackinnon, A. J.*; Patel, P.*; Pretzler, G.*; Toncian, T.*; et al.

Physical Review Letters, 101(2), p.025004_1 - 025004_4, 2008/07

 Times Cited Count:137 Percentile:95.71(Physics, Multidisciplinary)

Oral presentation

Blast waves generated from laser irradiated cluster targets

Fukuda, Yuji; Marocchino, A.*; Romagnani, L.*; Levy, A.*; Jinno, Satoshi*; Lancia, L.*; Ravasio, A.*; Schiavi, A.*; Atzeni, S.*; Doria, D.*; et al.

no journal, , 

We have investigated the dynamics of laser-produced blast waves in cluster targets by means of the combined use of two different diagnostics: optical probing (interferometry and Schlieren imaging) and proton probing. Interferometry and Schlieren imaging provided a spatially and temporally resolved mapping of the electron density and density gradient distributions. In addition, spatially and time-resolved proton probing provided mapping of the electric fields and charge density distributions in the plasma in the initial phase of plasma expansion and shock formation.

Oral presentation

Generation of laser-driven radiative blast waves in cluster media

Fukuda, Yuji; Marocchino, A.*; Romagnani, L.*; Levy, A.*; Jinno, Satoshi*; Lancia, L.*; Ravasio, A.*; Schiavi, A.*; Atzeni, S.*; Doria, D.*; et al.

no journal, , 

In the ELFIE laser facility at LULI, the dynamics of laser-produced blast waves in cluster targets has been investigated by means of the optical probing (interferometry and Schlieren imaging) and the proton probing. Interferometry and Schlieren imaging have provided a spatially and temporally resolved mapping of the electron density and density gradient distributions. In addition, spatially and time-resolved proton probing has provided mapping of the electric fields and charge density distributions in the plasma in the initial phase of plasma expansion and shock formation.

Oral presentation

Radiative blast waves generated in the interaction between intense laser pulses and cluster media

Fukuda, Yuji; Marocchino, A.*; Romagnani, L.*; Levy, A.*; Jinno, Satoshi*; Lancia, L.*; Ravasio, A.*; Doria, D.*; Borghesi, M.*

no journal, , 

The dynamics of laser-produced blast waves in cluster targets has been investigated by means of the optical probing (interferometry and Schlieren imaging) and the proton probing at the ELFIE laser facility in LULI (2J, 600fs). The Interferometry and Schlieren imagings have provided a spatially and temporally resolved mapping of the electron density and density gradient distributions. In addition, spatially and time-resolved proton probing has provided mapping of the electric fields and charge density distributions in the plasma in the initial phase of plasma expansion and shock formation.

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