Litcius/Paper detail

Shock physics and shadowgraphic measurements of laser-produced cerium plasmas

Emily H. Kwapis, Maya Hewitt, Kyle C. Hartig

2023Optics Express14 citationsDOIOpen Access PDF

Abstract

Shadowgraphic measurements are combined with theory on gas-dynamics to investigate the shock physics associated with nanosecond laser ablation of cerium metal targets. Time-resolved shadowgraphic imaging is performed to measure the propagation and attenuation of the laser-induced shockwave through air and argon atmospheres at various background pressures, where stronger shockwaves characterized by higher propagation velocities are observed for higher ablation laser irradiances and lower pressures. The Rankine-Hugoniot relations are also employed to estimate the pressure, temperature, density, and flow velocity of the shock-heated gas located immediately behind the shock front, predicting larger pressure ratios and higher temperatures for stronger laser-induced shockwaves.

Topics & Concepts

Shock wavePlasmaLaserShock (circulatory)Laser ablationOpticsNanosecondArgonMaterials scienceAblationAttenuationPhysicsAtomic physicsPlasma diagnosticsMechanicsNuclear physicsInternal medicineMedicineAerospace engineeringEngineeringLaser-induced spectroscopy and plasmaAtomic and Molecular PhysicsDiamond and Carbon-based Materials Research