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Gamma-Ray Flash in the Interaction of a Tightly Focused Single-Cycle Ultraintense Laser Pulse with a Solid Target

We employ the $λ^3$ regime where a near-single-cycle laser pulse is tightly focused, thus providing the highest possible intensity for the minimal energy at a certain laser power. The quantum electrodynamics processes in the course of the interaction of the ultraintense laser with a solid target are studied via three-dimensional particle-in-cell simulations, revealing the generation of copious $γ$-photons and electron-positron pairs. The parametric study on the laser polarisation, target thickness and electron number density shows that the radially polarised laser provides the optimal regime for $γ$-photon generation. By varying the laser power in the range of 1 to 300 petawatt we find the scaling of the laser to $γ$-photon energy conversion efficiency. The laser-generated $γ$-photon interaction with a high-Z target is further studied by using Monte Carlo simulations revealing further electron-positron pair generation and radioactive nuclides creation.

preprint2021arXivOpen access
P. HadjisolomouT. M. JeongP. ValentaD. KolenatyR. VersaciV. OlšovcováC. P. RidgersS. V. Bulanov
physics.plasm-ph
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Open access8 authors1 topic
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P. HadjisolomouT. M. JeongP. ValentaD. KolenatyR. VersaciV. OlšovcováC. P. RidgersS. V. Bulanov

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