Your search keyword '"Bellei C"' showing total 3 results

1. Self-modulated wakefield acceleration in a centimetre self-guiding channel.

Author

KAMPERIDIS, C., BELLEI, C., BOURGEOIS, N., KALUZA, M. C., KRUSHELNICK, K., MANGLES, S. P. D., MARQUES, J. R., NAGEL, S. R., and NAJMUDIN, Z.

Subjects

*PLASMA jets, *LASER plasmas, *HELIUM, *PLASMA density, *PARTICLE acceleration, *SIMULATION methods & models, *SPECTRUM analysis

Abstract

Self-modulated wakefield acceleration was investigated at densities down to ~4 × 1018 cm−3 by propagating the 50 TW 300 fs LULI laser in helium gas jets at lengths up to 1 cm. Long interaction lengths were achieved by closer matching of the initial focal spot size to the matched spot size for these densities. Electrons with energies extending to 180 MeV were observed in broad energy spectra which show some evidence for non-Maxwellian features at high energy. Two-dimensional PIC simulations indicate that the intial laser pulse breaks up into small pulselets that are eventually compressed and focused inside the first few plasma periods, leading to a ‘bubble-like’ acceleration of electron bunches. [ABSTRACT FROM PUBLISHER]

Published

2012

2. Third harmonic order imaging as a focal spot diagnostic for high intensity laser-solid interactions.

Author

Dromey, B., Bellei, C., Carroll, D. C., Clarke, R. J., Green, J. S., Kar, S., Kneip, S., Markey, K., Nagel, S. R., Willingale, L., McKenna, P., Neely, D., Najmudin, Z., Krushelnick, K., Norreys, P. A., and Zepf, M.

Subjects

HIGH power lasers, LASERS, GAMMA ray lasers, OPTOELECTRONIC devices, LIGHT sources

Abstract

As the state of the art for high power laser systems increases from terawatt to petawatt level and beyond, a crucial parameter for routinely monitoring high intensity performance is laser spot size on a solid target during an intense interaction in the tight focus regime (<10 μm). Here we present a novel, simple technique for characterizing the spatial profile of such a laser focal spot by imaging the interaction region in third harmonic order (3ωlaser). Nearly linear intensity dependence of 3ωlaser generation for interactions >1019 Wcm-2 is demonstrated experimentally and shown to provide the basis for an effective focus diagnostic. Importantly, this technique is also shown to allow in-situ diagnosis of focal spot quality achieved after reflection from a double plasma mirror setup for very intense high contrast interactions (>1020 Wcm-2) an important application for the field of high laser contrast interaction science. [ABSTRACT FROM AUTHOR]

Published

2009

3. Characterization of laser-driven proton beams from near-critical density targets using copper activation.

Author

Willingale, L., Nagel, S. R., Thomas, A. G. R., Bellei, C., Clarke, R. J., Dangor, A. E., Heathcote, R., Kaluza, M. C., Kamperidis, C., Kneip, S., Krushelnick, K., Lopes, N., Mangles, S. P. D., Nazarov, W., Nilson, P. M., and Najmudin, Z.

Subjects

PROTON beams, COPPER, ELECTRON density, ELECTRIC field strength, PROTON accelerators

Abstract

Copper activation was used to characterize high-energy proton beam acceleration from near-critical density plasma targets. An enhancement was observed when decreasing the target density, which is indicative for an increased laser-accelerated hot electron density at the rear target-vacuum boundary. This is due to channel formation and collimation of the hot electrons inside the target. Particle-in-cell simulations support the experimental observations and show the correlation between channel depth and longitudinal electric field strength is directly correlated with the proton acceleration. [ABSTRACT FROM AUTHOR]

Published

2015