A coupled plasma-thermal model shows nanosecond laser bubble inception in water is driven by plasma-induced thermoelastic rarefaction pressures rather than pure thermal nucleation or plasma mechanics alone.
Laser-induced plasma formation in water at nanosecond to femtosecond time scales: calculation of thresholds, absorption coefficients, and energy density
2 Pith papers cite this work. Polarity classification is still indexing.
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physics.flu-dyn 2years
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A review chapter summarizing donor architectures, bubble inception mechanisms, jet formation, and modeling approaches in LIFT printing.
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From Optical Breakdown to Bubble Inception: A Coupled Plasma-Thermal Framework for Nanosecond Laser-Induced Cavitation in Water
A coupled plasma-thermal model shows nanosecond laser bubble inception in water is driven by plasma-induced thermoelastic rarefaction pressures rather than pure thermal nucleation or plasma mechanics alone.
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Laser-Liquid Interaction in Laser-Induced Forward Transfer (LIFT) Printing: A Multiscale Perspective on Bubble Dynamics and Material Ejection
A review chapter summarizing donor architectures, bubble inception mechanisms, jet formation, and modeling approaches in LIFT printing.