Spatio-temporal structure of a petawatt femtosecond laser beam

Jeandet, Antoine; Borot, Antonin; Nakamura, Kei; Jolly, Spencer W.; Gonsalves, A. J.; Tóth, Csaba; Mao, Hann-Shin; Leemans, Wim; Quéré, F.

doi:10.1088/2515-7647/ab250d

Cited by 49 publications

(43 citation statements)

References 22 publications

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“…However, very different fluence profiles with respect to the wavelength can be distinguished: longer wavelengths present a Gaussian-like distribution and thus smaller beam diameter; while shorter wavelengths, correspond to a larger beam size and a more flat-top-like distribution or even "M" shape for the central part of the spectrum due to the strong gain saturation. This original prediction to the best of our knowledge is in good agreement with recent spatiotemporal coupling observations in a Bella PW laser chain [14] . The impact of such spatio-spectral inhomogeneity should not be underestimated especially regarding the impact on the far field intensity obtained after pulse compression and beam focusing.…”

Section: Spatiospectral / Spatiotemporal Couplings Induced By the Spatially Inhomogeneous Gain Dynamics In A Ti:sapphire Chainsupporting

confidence: 90%

Spatiotemporal coupling investigations for Ti:sapphire-based multi-PW lasers

Zou

Coïc

Papadopoulos

2022

High Pow Laser Sci Eng

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Emerging multi-PW class lasers and their envisioned laser plasma interaction applications in unprecedented intensity regimes set a very demanding frame for the precise understanding of the finest properties of these systems. In this work we present a synthesis of simulations studies on a series of less known or even completely disregarded spatiotemporal effects that could potentially impact greatly the performances of high intensity lasers.

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Section: Spatiospectral / Spatiotemporal Couplings Induced By the Spatially Inhomogeneous Gain Dynamics In A Ti:sapphire Chainsupporting

confidence: 90%

Spatiotemporal coupling investigations for Ti:sapphire-based multi-PW lasers

Zou

Coïc

Papadopoulos

2022

High Pow Laser Sci Eng

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“…We do not measure any low-order spatio-temporal couplings such as pulse-front tilt or pulse-front curvature. A single number, the so-called spatio-temporal Strehl ratio [23] can be used to assess the severity of the chromatic phase couplings. In the case of the data shown in Fig.…”

Section: Measurement Of Intensity and Phase Spatio-spectral Profilesmentioning

confidence: 99%

Multipass cells: 1D numerical model and investigation of spatio-spectral couplings at high nonlinearity

et al. 2020

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Multipass cells (MPC) are used nowadays as nonlinear tools to perform spectral broadening and temporal manipulation of laser pulses while maintaining a good spatial quality and spatio-spectral homogeneity. However, intensive 3D nonlinear spatio-temporal simulations are required to fully capture the physics associated to pulse propagation inside these systems. In addition, the limitations of such scheme are still under investigation. In this study, we first establish a 1D model as a useful design tool to predict the temporal and spectral properties of the output pulse for nearly Gaussian beams, in a wide range of cavity configurations and nonlinearity levels. This model allows to drastically reduce the computation time associated to MPC design. The validity of the 1D model is first checked by comparing it to 3D simulations. The results of the 1D model are then compared with experimental data collected from a near concentric gas-filled multipass cell presenting a high level of nonlinearity, enabling the observation of wavebreaking. In a second part, we experimentally characterize the spatio-spectral profile at the output of this experimental setup, both with an imaging spectrometer and with a complete 3D characterization method known as INSIGHT. The results show that gas-filled multipass cells can be used at peak power levels close to the critical power without inducing significant spatio-spectral couplings in intensity or phase.

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“…www.nature.com/scientificreports/ There are other potential problems to realize a sub-optical-cycle EW-class laser. In additions to the previously well-studied issues such as dispersion-control, wave-front-control, high-gain/energy-amplification, spectralnarrowing, temporal-contrast, beam-smoothing, beam-pointing, beam-focusing, etc., more recent issue of spatiotemporal/spectral coupling distortion induced by deformation of the compressor gratings [65][66][67][68] should be addressed, although it is technically controllable 69 .…”

Section: Discussionmentioning

confidence: 99%

Simulating an ultra-broadband concept for Exawatt-class lasers

Kato

Kawanaka

2021

Sci Rep

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The rapid development of the optical-cycle-level ultra-fast laser technologies may break through the bottleneck of the traditional ultra-intense laser [i.e., Petawatt (PW, 1015 W) laser currently] and enable the generation of even higher peak-power/intensity lasers. Herein, we simulate an ultra-broadband concept for the realization of an Exawatt-class (EW, 1018 W) high peak-power laser, where the wide-angle non-collinear optical parametric chirped-pulse amplification (WNOPCPA) is combined with the thin-plate post-compression. A frequency-chirped carrier-envelope-phase stable super-continuum laser is amplified to high-energy in WNOPCPA by pumping with two pump-beamlets and injected into the thin-plate post-compression to generate a sub-optical-cycle high-energy laser pulse. The numerical simulation shows this hybrid concept significantly enhances the gain bandwidth in the high-energy amplifier and the spectral broadening in the post-compression. By using this concept, a study of a prototype design of a 0.5 EW system is presented, and several key challenges are also examined.

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Spatio-temporal structure of a petawatt femtosecond laser beam

Cited by 49 publications

References 22 publications

Spatiotemporal coupling investigations for Ti:sapphire-based multi-PW lasers

Spatiotemporal coupling investigations for Ti:sapphire-based multi-PW lasers

Multipass cells: 1D numerical model and investigation of spatio-spectral couplings at high nonlinearity

Simulating an ultra-broadband concept for Exawatt-class lasers

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