Title :
Depth profiling of absorbing soft materials using photoacoustic methods
Author :
Viator, John A. ; Jacques, Steven L. ; Prahl, Scott A.
Author_Institution :
Oregon Graduate Inst. of Sci. & Technol., Beaverton, OR, USA
Abstract :
A Q-switched, frequency doubled, Nd:YAG laser coupled to an optical parametric oscillator generated 4.75-ns laser pulses at 726 nm to create subsurface acoustic waves in India ink solutions, India ink acrylamide gels, and in flat segments of elastin biomaterial stained with India ink. The acoustic waves traveled through the target and were detected by a piezoelectric transducer. The waveforms were converted to measurements of initial laser induced pressure and temperature as functions of depth in the material. An algorithm based on Beer´s Law was developed and applied to the acoustic signals to extract information about the absorption coefficient as a function of depth in the samples
Keywords :
Q-switching; biological techniques; biomedical materials; laser applications in medicine; neodymium; photoacoustic effect; solid lasers; spatial variables measurement; 4.75 ns; 726 nm; Beer´s Law; India ink acrylamide gels; India ink solutions; Q-switched frequency doubled Nd:YAG laser; YAG:Nd; YAl5O12:Nd; absorbing soft materials; absorption coefficient; acoustic signals; algorithm; depth profiling; elastin biomaterial; flat segments; initial laser induced pressure; initial laser induced temperature; laser pulses; optical parametric oscillator; photoacoustic methods; piezoelectric transducer; subsurface acoustic waves; target; waveforms; Acoustic waves; Biological materials; Biomedical optical imaging; Frequency; Ink; Nonlinear optics; Optical coupling; Optical harmonic generation; Optical materials; Optical pulse generation;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.796321
