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Author Maksimova, I. L. ♦ Akchurin, G. G. ♦ Terentyuk, G. S. ♦ Khlebtsov, B. N. ♦ Ermolaev, I. A. ♦ Skaptsov, A. A. ♦ Revzina, E. M. ♦ Tuchin, V. V. ♦ Khlebtsov, N. G.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword NANOSCIENCE AND NANOTECHNOLOGY ♦ RADIATION, THERMAL, AND OTHER ENVIRONMENTAL POLLUTANT EFFECTS ON LIVING ORGANISMS AND BIOLOGICAL MATERIALS ♦ ANIMAL TISSUES ♦ BIOLOGICAL RADIATION EFFECTS ♦ IN VIVO ♦ INTERACTIONS ♦ IRRADIATION ♦ LASER RADIATION ♦ LASERS ♦ NANOSTRUCTURES ♦ RESONANCE PARTICLES ♦ SIMULATION ♦ TEMPERATURE DISTRIBUTION ♦ BIOLOGICAL EFFECTS ♦ BODY ♦ ELECTROMAGNETIC RADIATION ♦ ELEMENTARY PARTICLES ♦ HADRONS ♦ RADIATION EFFECTS ♦ RADIATIONS
Abstract The spatial temperature distribution in biological tissues upon interaction of laser radiation with plasmon-resonance nanoparticles is simulated numerically. Experimental thermograms of model objects and real biological tissues are obtained in vivo for different localisation depths of nanoparticles in different irradiation regimes. The results obtained in the study can be used for the development of methods of laser photothermolysis of malignant tumours. (special issue devoted to application of laser technologies in biophotonics and biomedical studies)
ISSN 10637818
Educational Use Research
Learning Resource Type Article
Publisher Date 2008-06-30
Publisher Place United States
Journal Quantum Electronics
Volume Number 38
Issue Number 6


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