Daniel Albach scite author profile

We report on experimental investigations of proton acceleration from solid foils irradiated with PW-class laser-pulses, where highest proton cut-off energies were achieved for temporal pulse parameters that varied significantly from those of an ideally Fourier transform limited (FTL) pulse. Controlled spectral phase modulation of the driver laser by means of an acousto-optic programmable dispersive filter enabled us to manipulate the temporal shape of the last picoseconds around the main pulse and to study the effect on proton acceleration from thin foil targets. The results show that applying positive third order dispersion values to short pulses is favourable for proton acceleration and can lead to maximum energies of 70 MeV in target normal direction at 18 J laser energy for thin plastic foils, significantly enhancing the maximum energy compared to ideally compressed FTL pulses. The paper further proves the robustness and applicability of this enhancement effect for the use of different target materials and thicknesses as well as laser energy and temporal intensity contrast settings. We demonstrate that application relevant proton beam quality was reliably achieved over many months of operation with appropriate control of spectral phase and temporal contrast conditions using a state-of-the-art high-repetition rate PW laser system.

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14 J / 2 Hz Yb^3+:YAG diode pumped solid state laser chain

Goncalves-Novo¹,

Albach²,

Vincent³

et al. 2013

Opt. Express

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Performance demonstration of the PEnELOPE main amplifier HEPA I using broadband nanosecond pulses

Albach

Loeser

Siebold

et al. 2018

High Pow Laser Sci Eng

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We report on the energetic and beam quality performance of the second to the last main amplifier section HEPA I of the PEnELOPE laser project. A polarization coupled double-12-pass scheme to verify the full amplification capacity of the last two amplifiers HEPA I and II was used. The small signal gain for a narrow-band continuous wave laser was 900 and 527 for a broadband nanosecond pulse, demonstrating 12.6 J of output pulse energy. Those pulses, being spectrally wide enough to support equivalent 150 fs long ultrashort pulses, are shown with an excellent spatial beam quality. A first active correction of the wavefront using a deformable mirror resulted in a Strehl ratio of 76% in the single-12-pass configuration for HEPA I.

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Influence of ASE on the gain distribution in large size, high gain Yb^3+:YAG slabs

2009

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Daniel Albach

First results with the novel petawatt laser acceleration facility in Dresden

Proton beam quality enhancement by spectral phase control of a PW-class laser system

14 J / 2 Hz Yb^3+:YAG diode pumped solid state laser chain

Performance demonstration of the PEnELOPE main amplifier HEPA I using broadband nanosecond pulses

Influence of ASE on the gain distribution in large size, high gain Yb^3+:YAG slabs

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