A. N. Pirri scite author profile

Experiments and theoretical analysis have been performed to investigate the thermal and mechanical coupling of pulsed 0.35-μm laser radiation (τp≊10−6 s) to aluminum targets irradiated in vacuum. Thermal coupling coefficients measured for Al 2024 (as-received and polished) and pure aluminum, and impulse coupling data for polished Al 2024 are presented. We find low fluence (≲5.0 J/cm2) thermal coupling coefficients of 0.4 for as-received Al 2024, 0.2 for polished or laser-cleaned Al 2024, and 0.1 for pure aluminum. Neglecting initial surface layer effects, impulse coupling is shown to result from bulk target vaporization for pulse fluences greater than 10 J/cm2. Measurements are also presented for the plasma formation threshold above aluminum targets irradiated in vacuum at 0.35 μm. An intensity threshold of 6×107 W/cm2 is indicated for a pulse duration of 0.5 μs. The impulse coupling and plasma ignition threshold data are shown to be in good agreement with theoretical model predictions.

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Theory for momentum transfer to a surface with a high-power laser

Pirri

1973

156

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A model is developed for the momentum transferred to a solid from a laser-supported gaseous detonation wave initiated in air above the surface. One-dimensional gasdynamic analysis is used for the detonation wave moving away from the surface and cylindrical blast-wave theory is employed to partially account for two dimensional effects. Momentum transfer coupling coefficients (impulse/laser energy) are calculated which are functions of the laser energy flux, pulse duration, and the beam and target surface areas. Results are compared with recent experimental data obtained using a high-power CO2 laser.

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Plasma Energy Transfer to Metal Surfaces Irradiated by Pulsed Lasers

1978

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Theory for laser simulation of hypervelocity impact

Pirri

1977

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Propulsion by Absorption of Laser Radiation

Pirri¹,

Monsler²,

Nebolsine³

1974

AIAA Journal

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A. N. Pirri

Coupling of pulsed 0.35-μm laser radiation to aluminum alloys

Theory for momentum transfer to a surface with a high-power laser

Plasma Energy Transfer to Metal Surfaces Irradiated by Pulsed Lasers

Theory for laser simulation of hypervelocity impact

Propulsion by Absorption of Laser Radiation

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