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Kvantovaya Elektronika, 2007, Volume 37, Number 1, Pages 17–21 (Mi qe13461)  

This article is cited in 10 scientific papers (total in 10 papers)

Special issue devoted to multiple radiation scattering in random media

Effect of multiple scattering of light by titanium dioxide nanoparticles implanted into a superficial skin layer on radiation transmission in different wavelength ranges

A. P. Popovab, A. V. Priezzhevca, J. Lademannd, R. A. Myllyläb

a International Laser Center of Moscow State University
b Department of Electrical and Information Engineering, Optoelectronics and Measurement Techniques Laboratory, University of Oulu, Finland
c Faculty of Physics, Lomonosov Moscow State University
d Medical Faculty Charite, Center of Experimental and Applied Cutaneos Physiology, Humboldt University, Germany

Abstract: The propagation of radiation in different spectral ranges in a superficial skin layer partially filled with titanium dioxide nanoparticles at the volume concentration 0.67% – 2.25% is simulated by the Monte-Carlo method. This volume concentration corresponds to the maximum admissible concentrations of particles that most efficiently attenuate radiation in the independent scattering regime. The transmission of radiation at 307, 400, and 500 nm in a 20-μm thick skin layer is simulated and the effect of nanoparticles on the contributions from photons of different scattering orders to transmission is considered. It is shown that the administration of nanoparticles results in the broadening of the scattering-order distribution of photons propagated through the skin layer and the shift of the maximum of this distribution in the direction of a greater number of scattering events at wavelengths 400 and 500 nm, the effect being more pronounced at 400 nm. The increase in the scattering order elongates photon trajectories in the medium and enhances diffusely scattered radiation, thereby reducing transmission.

Full text: PDF file (166 kB)

English version:
Quantum Electronics, 2007, 37:1, 17–21

Bibliographic databases:

PACS: 87.57.Ce, 87.64.Cc, 78.67.Bf
Received: 19.06.2006
Revised: 07.11.2006

Citation: A. P. Popov, A. V. Priezzhev, J. Lademann, R. A. Myllylä, “Effect of multiple scattering of light by titanium dioxide nanoparticles implanted into a superficial skin layer on radiation transmission in different wavelength ranges”, Kvantovaya Elektronika, 37:1 (2007), 17–21 [Quantum Electron., 37:1 (2007), 17–21]

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    Citing articles on Google Scholar: Russian citations, English citations
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    This publication is cited in the following articles:
    1. A. P. Popov, A. V. Priezzhev, M. S. Fedoseeva, J. Lademann, R. Myllylii, Moscow Univ Phys, 64:5 (2009), 513  crossref  isi  elib  scopus
    2. A. P. Popov, A. V. Priezzhev, J. Lademann, R. Myllylä, J Appl Phys, 105:10 (2009), 102035  crossref  adsnasa  isi  elib  scopus
    3. Alexey P. Popov, Stefan Haag, Martina Meinke, Jürgen Lademann, Alexander V. Priezzhev, Risto Myllylä, J Biomed Opt, 14:2 (2009), 021011  crossref  isi  scopus
    4. I. Krasnikov, A. Popov, A. Seteikin, R. Myllylä, Biomed. Opt. Express, 2:12 (2011), 3278  crossref  isi  elib  scopus
    5. Quantum Electron., 41:5 (2011), 396–401  mathnet  crossref  adsnasa  isi  elib
    6. Genina E.A. Bashkatov A.N. Dolotov L.E. Maslyakova G.N. Kochubey V.I. Yaroslavsky I.V. Altshuler G.B. Tuchin V.V., J. Biomed. Opt., 18:11 (2013), 111406  crossref  isi  elib  scopus
    7. Popov A. Bykov A. Khaydukov E. Semchishen V. Kordas K. Tuchin V., Eighth International Conference on Advanced Optical Materials and Devices (Aomd-8), Proceedings of Spie, 9421, ed. Spigulis J., Spie-Int Soc Optical Engineering, 2014, 942107  crossref  isi  scopus
    8. Lee G.J. Attri P. Choi E.H. Kwon Y.-W. Krasnikov I. Seteikin A., J. Nanosci. Nanotechnol., 14:1 (2014), 221–249  crossref  isi  elib  scopus
    9. M. M. Mikhailov, V. V. Neshchimenko, J. Synch. Investig, 9:1 (2015), 144  crossref  mathscinet  scopus
    10. I. V. Krasnikov, A. Yu. Seteikin, A. P. Popov, Opt. Spectrosc, 118:4 (2015), 668  crossref  adsnasa  isi  elib  scopus
  • Квантовая электроника Quantum Electronics
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