Your search keyword '"Frez, Clifford"' showing total 2 results

1. Laser generation of gas bubbles: Photoacoustic and photothermal effects recorded in transient grating experiments.

Author

Frez, Clifford and Diebold, Gerald J.

Subjects

*COLLOIDS, *ABSORPTION, *PHOTOACOUSTIC spectroscopy, *PHOTOPOLYMERS, *IRRADIATION, *ATMOSPHERIC water vapor, *DECARBOXYLATION

Abstract

Absorption of high power laser radiation by colloidal suspensions or solutions containing photoreactive chemicals can result in bubble production. Here, transient grating experiments are reported where picosecond and nanosecond lasers are used to initiate photoinduced processes that lead to bubble formation. Irradiation of colloidal Pt suspensions is found to produce water vapor bubbles that condense back to liquid on a nanosecond time scale. Laser irradiation of Pt suspensions supersaturated with CO2 liberates dissolved gas to produce bubbles at the sites of the colloidal particles. Laser induced chemical reactions that produce bubbles are found in suspensions of particulate C in water, and in the sensitized decarboxylation of oxalic acid. Theory based on linear acoustics as well as the Rayleigh–Plesset equation is given for description of the bubble motion. [ABSTRACT FROM AUTHOR]

Published

2008

2. Transient gratings generated by particulate suspensions: The uniformly irradiated sphere and the point source.

Author

Frez, Clifford, Calasso, Irio G., and Diebold, Gerald J.

Subjects

*SUSPENSIONS (Chemistry), *PHOTOACOUSTIC spectroscopy, *PHYSICS, *TRANSIENTS (Dynamics), *VIBRATION (Mechanics), *PRESSURE

Abstract

Expressions for the time dependence of the state variables in a transient grating experiment carried out on suspensions of particles can be determined by integration over space of the solutions for the temperature and photoacoustic pressure for a single particle. The method relies on independent computation of the thermal and acoustic modes of wave motion which are combined to give the temperature, pressure, and density in the grating as a function of time. Calculations are given for the uniformly irradiated droplet and the point source, the latter including the effects of a temperature-dependent thermal expansion coefficient. Transient grating experiments are reported in colloidal Pt that show features described in the calculation. [ABSTRACT FROM AUTHOR]

Published

2006