- Main
Transient Laser-Induced Breakdown of Dielectrics in Ultrarelativistic Laser-Solid Interactions
- Bernert, Constantin;
- Assenbaum, Stefan;
- Bock, Stefan;
- Brack, Florian-Emanuel;
- Cowan, Thomas E;
- Curry, Chandra B;
- Garten, Marco;
- Gaus, Lennart;
- Gauthier, Maxence;
- Gebhardt, René;
- Göde, Sebastian;
- Glenzer, Siegfried H;
- Helbig, Uwe;
- Kluge, Thomas;
- Kraft, Stephan;
- Kroll, Florian;
- Obst-Huebl, Lieselotte;
- Püschel, Thomas;
- Rehwald, Martin;
- Schlenvoigt, Hans-Peter;
- Schoenwaelder, Christopher;
- Schramm, Ulrich;
- Treffert, Franziska;
- Vescovi, Milenko;
- Ziegler, Tim;
- Zeil, Karl
- et al.
Abstract
For high-intensity laser-solid interactions, the absolute density and surface density gradients of the target at the arrival of the ultrarelativistic laser peak are critical parameters. Accurate modeling of the leading edge-driven target preexpansion is desired to strengthen the predictive power of associated computer simulations. The transition from an initial solid state to a plasma state, i.e., the breakdown of the solid, defines the starting point of the subsequent target preexpansion. In this work, we report on the time-resolved observation of transient laser-induced breakdown (LIB) during the leading edge of high-intensity petawatt-class laser pulses with peak intensities of up to 5.7×1021W/cm2 in interaction with dielectric cryogenic hydrogen jet targets. LIB occurs much earlier than what is typically expected following the concept of barrier suppression ionization. The observation is explained by comparing a characterization study of target-specific LIB thresholds with laser contrast measurements. The results demonstrate the relevance of the laser pulse duration dependence of LIB for high-intensity laser-solid interactions. We provide an effective approach to determine the onset of LIB and thereby the starting point of target preexpansion in other laser-target systems.
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