J. B. Ohland scite author profile

J. B. Ohland

3Publications

40Citation Statements Received

51Citation Statements Given

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Affiliations

GSI Helmholtz Centre for Heavy Ion Research, Technical University of Darmstadt, Institut Polytechnique de Paris

Publications

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Enhancement of the laser-driven proton source at PHELIX

Hornung

Zobus

Boller

et al. 2020

High Pow Laser Sci Eng

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We present a study of laser-driven ion acceleration with micrometre and sub-micrometre thick targets, which focuses on the enhancement of the maximum proton energy and the total number of accelerated particles at the PHELIX facility. Using laser pulses with a nanosecond temporal contrast of up to $10^{-12}$ and an intensity of the order of $10^{20}~\text{W}/\text{cm}^{2}$ , proton energies up to 93 MeV are achieved. Additionally, the conversion efficiency at $45^{\circ }$ incidence angle was increased when changing the laser polarization to p, enabling similar proton energies and particle numbers as in the case of normal incidence and s-polarization, but reducing the debris on the last focusing optic.

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A study on the effects and visibility of low-order aberrations on laser beams with orbital angular momentum

et al. 2019

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Laguerre-Gaussian-like laser beams have been proposed for driving experiments with high-intensity lasers. They carry orbital angular momentum and exhibit a ring-shaped intensity distribution in the far field which make them particularly attractive for various applications. We show experimentally and numerically that this donut-like shape is extremely sensitive to off-axis wavefront deformations. To support our claim, we generate a Laguerre-Gaussian-like laser beam and apply a selection of common low-order wavefront aberrations. We investigate the visibility of those wavefront deformations in the far field. Under use of established tolerance criteria, we determine the thresholds for the applied aberration and compare the findings with simulations for verification.

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Alignment procedure for off-axis-parabolic telescopes in the context of high-intensity laser beam transport

et al. 2021

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Off-axis parabolic telescopes are rarely used in high-intensity, high-energy lasers, despite their favorable properties for beam transport such as achromatism, low aberrations and the ability to handle high peak intensities. One of the major reasons for this is the alignment procedure which is commonly viewed as complicated and time consuming. In this article, we revisit off-axis parabolic telescopes in the context of beam transport in high-intensity laser systems and present a corresponding analytical model. Based on that, we propose a suitable setup that enables fast and repeatable alignment for everyday operation.

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J. B. Ohland

Enhancement of the laser-driven proton source at PHELIX

A study on the effects and visibility of low-order aberrations on laser beams with orbital angular momentum

Alignment procedure for off-axis-parabolic telescopes in the context of high-intensity laser beam transport

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