Journal ArticleDOI
Radiation-Induced Acoustic Waves in Water
TLDR
In this paper, the authors considered a water surface irradiated by a powerful pulse laser and showed that an acoustic wave propagates into the water, and they divided the acoustic signal generation into two regimes according to laser intensity.Abstract:
Introduction T momentum transfer caused by a pulse laser upon a surface has been studied both in vacuum and under atmospheric conditions.' These studies were concerned primarily with surfaces of solids, i.e., aluminum, tungsten, etc. When a water surface is irradiated by a powerful pulse laser, an acoustic wave has been observed to propagate into the water.' These experimental observations were made with CO2 lasers and with small spot size (diameter d<H 1 cm). Here we will consider d~~3Q cm. The phenomenology of laser induced acoustic waves in water is rather complex. For very high intensity laser beams, a plasma will be generated above the surface and will alter the characteristics of the beams. For simplicity, when the water is vaporized, the droplets in the water vapor above the surface are assumed to be of the same size as the average aerosols, i.e., 3-5 #m. From the summary of the observed breakdown data in air, the plasma formation threshold for 3-5 /mi particles is of the order of 10 W/cm. Since the formation of plasma is an inefficient mechanism in the process of radiation induced sound, we consider only laser intensities < 10 W/cm. In order to assess the acoustic signals in water, we must first establish the pressure history on the surface. Here, we will divide the acoustic signal generation into two regimes according to laser intensity. For high intensities, i.e., 10 10 W/cm, the blast wave theory will be used to give the surface pressure history. In applying this theory it is assumed that the laser energy is completely absorbed in the blast wave, and in addition, we can ignore the presence of water vapor which may be significant. For low intensities, i.e., less than 10 W/cm, a previously developed thermal conduction code will be used to predict the pressure history on the surface. Finally, knowing the surface pressure history, we can proceed to estimate the far-field signatures.read more
Citations
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Journal ArticleDOI
Optoacoustic sources of sound
TL;DR: In this article, it is shown that depending on the volume density of the optical energy evolved in a liquid, the process of generation is mainly due to thermal expansion, surface evaporation, explosive boiling, or optical breakdown of the liquid.
Journal ArticleDOI
Overheated metastable states in pulsed laser action on ceramics
TL;DR: In this paper, the volume overheating of solid and liquid phases in pulsed laser evaporation of superconducting ceramics is analyzed by numerical simulation, which includes the processes of heating (with a volume energy release), melting-solidification, and evapsoration, and the times of existence of these metastable states are tens and hundreds of nanoseconds.
Journal ArticleDOI
Variable energy blast modeling of the stress generation associated with laser ablation
TL;DR: In this article, the variable energy blast theory was adapted to the condition of laser-target interaction in air to obtain the scaling law of the peak and the temporal profile of the pressure pulse.
Journal ArticleDOI
Intraocular measurements of pressure transients induced by excimer laser ablation of the cornea
Salvatore Siano,Roberto Pini,Pier Giorgio Gobbi,Renzo Salimbeni,Matteo Vannini,Francesco Carones,Giuseppe Trabucchi,Rosario Brancato +7 more
TL;DR: The evolution of pressure waves induced by argon‐fluoride laser ablation of the cornea in the typical operative conditions of clinical laser keratectomy has been studied experimentally and analyzed.
Journal ArticleDOI
Acoustic focusing associated with excimer laser ablation of the cornea
TL;DR: Focusing and diffraction effects experienced by the stress wave produced by the argon-fluoride excimer laser ablation of corneal tissue have been studied in artificial and real eye samples as discussed by the authors.
References
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Journal ArticleDOI
Theory for momentum transfer to a surface with a high‐power laser
TL;DR: In this paper, a model for the momentum transferred to a solid from a laser-supported gaseous detonation wave initiated in air above the surface is developed for the trajectory of the wave moving away from the surface.
Journal ArticleDOI
Momentum transfer and plasma formation above a surface with a high‐power CO2 laser
A.N. Pirri,R. Schlier,D. Northam +2 more
TL;DR: In this article, the authors measured the total impulse transferred to a surface by a high-power pulsed 10.6μ laser under atmospheric conditions, and also determined the degree to which the observed plasma decouples the laser energy from the surface.
Journal ArticleDOI
Shock Wave Generation in Air and in Water by CO(2) TEA Laser Radiation.
C. E. Bell,Bruce S. Maccabee +1 more
TL;DR: Shadowgraph techniques, using a Q-switched ruby laser as a light source, have been used to examine the shock waves produced in air and in water by focusing CO(2) TEA laser radiation at an air-water interface, finding that the shock speed in water decays to the sound speed within 0.5 microsec.
Patent
Multiple pulse laser
TL;DR: In this article, an acousto-optic cell is used to modulate coherent light from a lasing element, which is then used to generate an output pulse, while using a multi-tapped delay line to allow a shorter period between pulses.