Your search keyword '"Target Normal Sheath Acceleration"' showing total 2 results

1. Mapping non-laminar proton acceleration in laser-driven target normal sheath field.

Author

Qin, C. Y., Zhang, H., Li, S., Zhai, S. H., Li, A. X., Qian, J. Y., Gui, J. Y., Wu, F. X., Zhang, Z. X., Xu, Y., Liang, X. Y., Leng, Y. X., Shen, B. F., Ji, L. L., and Li, R. X.

Subjects

*PROTONS, *ELECTRIC fields, *ELECTRIC currents, *BALANCE of payments, *MAGNETIC fields, *RADIOSTEREOMETRY

Abstract

We report on experimental observation of non-laminar proton acceleration modulated by a strong magnetic field in laser irradiating micrometer aluminum targets. The results illustrate the coexistence of ring-like and filamentation structures. We implement the knife edge method into the radiochromic film detector to map the accelerated beams, measuring a source size of 30–110 μm for protons of more than 5 MeV. The diagnosis reveals that the ring-like profile originates from low-energy protons far off the axis whereas the filamentation is from the near-axis high-energy protons, exhibiting non-laminar features. Particle-in-cell simulations reproduced the experimental results, showing that the short-term magnetic turbulence via Weibel instability and the long-term quasi-static annular magnetic field by the streaming electric current account for the measured beam profile. Our work provides direct mapping of laser-driven proton sources in the space-energy domain and reveals the non-laminar beam evolution at featured time scales. [ABSTRACT FROM AUTHOR]

Published

2022

2. Simultaneous observation of ultrafast electron and proton beams in TNSA.

Author

Bisesto, Fabrizio, Galletti, Mario, Anania, Maria Pia, Costa, Gemma, Ferrario, Massimo, Pompili, Riccardo, Zigler, Arie, Consoli, Fabrizio, Cipriani, Mattia, Salvadori, Martina, and Verona, Claudio

Subjects

*ELECTRON beams, *SOLID-state lasers, *NANODIAMONDS, *ULTRA-short pulsed lasers, *PROTON beams, *ION sources

Abstract

The interaction of ultra-intense high-power lasers with solid-state targets has been largely studied for the past 20 years as a future compact proton and ion source. Indeed, the huge potential established on the target surface by the escaping electrons provides accelerating gradients of TV/m. This process, called target normal sheath acceleration, involves a large number of phenomena and is very difficult to study because of the picosecond scale dynamics. At the SPARC_LAB Test Facility, the high-power laser FLAME is employed in experiments with solid targets, aiming to study possible correlations between ballistic fast electrons and accelerated protons. In detail, we have installed in the interaction chamber two different diagnostics, each one devoted to characterizing one beam. The first relies on electro-optic sampling, and it has been adopted to completely characterize the ultrafast electron components. On the other hand, a time-of-flight detector, based on chemical-vapour-deposited diamond, has allowed us to retrieve the proton energy spectrum. In this work, we report preliminary studies about simultaneous temporal resolved measurements of both the first forerunner escaping electrons and the accelerated protons for different laser parameters. [ABSTRACT FROM AUTHOR]

Published

2020