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Cylindrical compression of thin wires by irradiation with a Joule-class short-pulse laser

Alejandro Laso García, Long Yang, V. Bouffetier, Karen Appel, Carsten Baehtz, J. Hagemann, Hauke Höppner, Oliver Humphries, T. Kluge, Mikhail Mishchenko, M. Nakatsutsumi, A. Pełka, Thomas R. Preston, Lisa Randolph, U. Zastrau, T. E. Cowan, Lingen Huang, T. Toncian

2024Nature Communications12 citationsDOIOpen Access PDF

Abstract

Equation of state measurements at Jovian or stellar conditions are currently conducted by dynamic shock compression driven by multi-kilojoule multi-beam nanosecond-duration lasers. These experiments require precise design of the target and specific tailoring of the spatial and temporal laser profiles to reach the highest pressures. At the same time, the studies are limited by the low repetition rate of the lasers. Here, we show that by the irradiation of a thin wire with single-beam Joule-class short-pulse laser, a converging cylindrical shock is generated compressing the wire material to conditions relevant to the above applications. The shockwave was observed using Phase Contrast Imaging employing a hard X-ray Free Electron Laser with unprecedented temporal and spatial sensitivity. The data collected for Cu wires is in agreement with hydrodynamic simulations of an ablative shock launched by highly impulsive and transient resistive heating of the wire surface. The subsequent cylindrical shockwave travels toward the wire axis and is predicted to reach a compression factor of 9 and pressures above 800 Mbar. Simulations for astrophysical relevant materials underline the potential of this compression technique as a new tool for high energy density studies at high repetition rates.

Topics & Concepts

LaserMaterials scienceShock (circulatory)NanosecondJoule heatingOpticsPulse durationCompression (physics)IrradiationResistive touchscreenShock wavePulse (music)Cathode rayBeam (structure)ElectronPhysicsMechanicsComposite materialDetectorEngineeringQuantum mechanicsElectrical engineeringMedicineNuclear physicsInternal medicineLaser-Plasma Interactions and DiagnosticsHigh-pressure geophysics and materialsLaser-Matter Interactions and Applications
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