1. Theoretical model of CO2 laser ablation of soft-tissue phantoms
- Author
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Emil N. Sobol, Dido Yova, Mersini I. Makropoulou, and Alexandros A. Serafetinides
- Subjects
Materials science ,Laser ablation ,business.industry ,Vapor pressure ,medicine.medical_treatment ,Physics::Medical Physics ,Polyacrylamide ,Far-infrared laser ,Evaporation ,General Physics and Astronomy ,Soft tissue ,Ablation ,chemistry.chemical_compound ,Optics ,chemistry ,Thermal ,medicine ,Composite material ,business - Abstract
A model of thermal laser ablation of soft tissues is developed taking into consideration two mechanisms: evaporation and liquid moving, due to vapour pressure gradient. Usually a soft tissue is modelled as a single-component material with thermal and optical properties very similar to those of water. We examined the non-stable kinetics of the evaporation process, for short-pulse infrared laser ablation of soft tissues, and we also calculated the average liquid velocity and the ablation rates under vapour pressure gradient. The theoretical results are in good agreement with previous reported experimental data on gelatin and polyacrylamide tissue phantoms
- Published
- 1996
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