Zhaoqi Zeng scite author profile

We show the feasibility of simultaneous measurement of shock velocity and released particle velocity after shock at Mbar pressure. The shock wave is driven by a laser pulse of 1.2 ps duration (full width at half maximum), with the intensity of ∼1014 W/cm2 at 785 nm, irradiating a 500-nm-thick aluminum foil. A chirped laser pulse split from the main pulse is applied to detect the shock breakout process at the rear surface of the target based on frequency domain interferometry. The mean shock velocity determination benefits from the precise synchronization (<100 fs resolution) of the shock pump and probe laser pulse, which is calculated from the time the shock takes to travel the 500-nm-thick aluminum. The released particle velocity determination takes advantage of the chirped pulse frequency domain interferometry. The two measured parameters are self-consistent.

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Dynamic force modeling and mechanics analysis of precision grinding with microstructured wheels

Meng

Guo

Wu³

et al. 2023

Journal of Materials Processing Technology

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Zhaoqi Zeng

A study of micro-EDM and micro-ECM combined milling for 3D metallic micro-structures

The influence of the ionization regime on femtosecond laser beam machining mono-crystalline diamond

Simultaneous measurement of laser-induced shock wave and released particle velocities at Mbar pressure

Dynamic force modeling and mechanics analysis of precision grinding with microstructured wheels

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