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Mainz 2022 – wissenschaftliches Programm

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P: Fachverband Plasmaphysik

P 3: Laser Plasmas I

P 3.4: Vortrag

Montag, 28. März 2022, 14:45–15:00, P-H12

Optimized laser ion acceleration at the relativistic critical density surfaceThomas Kluge1, •Ilja Göthel1,2, Constantin Bernert1,2, Michael Bussmann3, Marco Garten1,2, Thomas Miethlinger1,2, Martin Rehwald1,2, Karl Zeil1, Tim Ziegler1,2, Thomas E. Cowan1,2, and Ulrich Schramm1,21Helmholtz-Zentrum Dresden-Rossendorf — 2Technische Universität Dresden — 3Center for Advanced Systems Understanding (CASUS)

In the effort of achieving high-energetic ion beams from the interaction of ultrashort laser pulses with a plasma, volumetric acceleration mechanisms beyond Target Normal Sheath Acceleration have gained attention. A relativisticly intense laser can turn a near critical density plasma slowly transparent, facilitating a synchronized acceleration of ions at the moving relativistic critical density front. While simulations promise extremely high ion energies in in this regime, the challenge resides in the realization of a synchronized movement of the ultrarelativistic laser pulse (a0 >* 30) driven reflective relativistic electron front and the fastest ions, which imposes a narrow parameter range on the laser and plasma parameters. We present an analytic model for the relevant processes, confirmed by a broad parameter simulation study in 1D- and 3D-geometry. By tayloring the pulse length plasma density profile at the front side, we can optimize the proton acceleration performance and extend the regions in parameter space of efficient ion acceleration at the relativistic relativistic density surface.

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