Bryan Banish scite author profile

Bryan Banish

3Publications

33Citation Statements Received

5Citation Statements Given

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Massachusetts Institute of Technology

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Interferometric surface monitoring of biological tissue to study inertially confined ablation

et al. 1994

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We present results from the application of laser interferometry to the study of short-pulsed laser ablation of biological tissue. The mechanical response of tissue to laser-induced stress is examined under subthreshold conditions to determine its role in initiating the ablation process. A theoretical model is developed to relate this surface displacement to the pressure within the tissue and the mechanical properties of the tissue. In the experiment, a 7.5 ns pulse of 355 nm light was used to irradiate bovine shank bone, human meniscus, and an aqueous dye solution. Interferometric monitoring of the tissue surface was used to determine its motion after laser irradiation. The surface movement of bone was qualitatively consistent with the theoretical predictions of the model. The movement of meniscus and an aqueous dye solution showed additional features that are consistent with the growth and collapse of cavitation bubbles.

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Pressure generation during inertially confined laser ablation of biological tissue

Itzkan

Albagli

Banish

et al. 1993

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<title>Time dependence of laser-induced surface breakdown in fused silica at 355 nm in the nanosecond regime</title>

Albagli

Izatt

Hayes

et al. 1991

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Bryan Banish

Interferometric surface monitoring of biological tissue to study inertially confined ablation

Pressure generation during inertially confined laser ablation of biological tissue

<title>Time dependence of laser-induced surface breakdown in fused silica at 355 nm in the nanosecond regime</title>

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