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Pulsed holmium laser ablation of tissue phantoms: correlation between bubble formation and acoustic transients |
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| Authors: | T. Asshauer G. Delacrétaz E.D. Jansen A.J. Welch M. Frenz |
| Affiliation: | Institut d’Optique Appliquée, Ecole Polytechnique Fédérale de Lausanne, CH-1015, Lausanne, Switzerland (Fax: +41-21-693 37 01, E-mail: guy.delacretaz@ioa.dmt.epfl.ch), CH Biomedical Engineering Program, University of Texas at Austin, Austin TX 78712, USA, US Institut für Angewandte Physik, Universit?t Bern, CH-3012 Bern, Switzerland, CH |
| Abstract: | 5 Pa served as tissue phantoms to evaluate such effects. Holmium laser pulses (wavelength: 2.12 μm, duration: 180 μs FWHM), were delivered through 400 and 600 μm diameter optical fibers inserted into cubes of clear gel. Bubble effects were investigated using simultaneous flash micro-videography and pressure recording for radiant exposures of 20–382 J/cm2. Bubble formation and bubble collapse induced pressure transients were observed regardless of phantom stiffness. Bubbles of up to 4.2 mm in length were observed in gels with a Young’s modulus of 2.9×105 Pa at a pulse energy of 650 mJ. An increase of Young’s modulus (reduction in water content) led to a monotonic reduction of bubble size. In the softest gels, bubble dimensions exceeded those observed in water. Pressure amplitudes at 3 mm decreased from 100±14 bars to 17±6 bars with increasing Young’s modulus over the studied range. Theoretical analysis suggested a major influence on bubble dynamics of the mass and energy transfer through the bubble boundary. Received: 26 August 1996/Revised version: 10 February 1997 |
| Keywords: | PACS: 42.62.Be 62.50.+p 87.45.-k |
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