Intraocular light scatter as modeled through a stratified medium

B Pierscionek, RJ Green, SG Dolgobrodov

    Research output: Contribution to journalArticle

    3 Citations (Scopus)

    Abstract

    Intraocular light scatter is modeled through a stratified medium. It is shown that the eye lens possesses properties of an interference filter. In conditions that may mimic opacification, as found with cataract formation, such a filter may have stop zones with reflectance up to 1 in the band of visible light. (C) 2001 Optical Society of America.
    LanguageEnglish
    Pages6340-6348
    JournalApplied Optics
    Volume40
    Issue number34
    Publication statusPublished - Dec 2001

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    Cite this

    Pierscionek, B., Green, RJ., & Dolgobrodov, SG. (2001). Intraocular light scatter as modeled through a stratified medium. Applied Optics, 40(34), 6340-6348.
    Pierscionek, B ; Green, RJ ; Dolgobrodov, SG. / Intraocular light scatter as modeled through a stratified medium. In: Applied Optics. 2001 ; Vol. 40, No. 34. pp. 6340-6348.
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    abstract = "Intraocular light scatter is modeled through a stratified medium. It is shown that the eye lens possesses properties of an interference filter. In conditions that may mimic opacification, as found with cataract formation, such a filter may have stop zones with reflectance up to 1 in the band of visible light. (C) 2001 Optical Society of America.",
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    Pierscionek, B, Green, RJ & Dolgobrodov, SG 2001, 'Intraocular light scatter as modeled through a stratified medium', Applied Optics, vol. 40, no. 34, pp. 6340-6348.

    Intraocular light scatter as modeled through a stratified medium. / Pierscionek, B; Green, RJ; Dolgobrodov, SG.

    In: Applied Optics, Vol. 40, No. 34, 12.2001, p. 6340-6348.

    Research output: Contribution to journalArticle

    TY - JOUR

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    AU - Green, RJ

    AU - Dolgobrodov, SG

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    AB - Intraocular light scatter is modeled through a stratified medium. It is shown that the eye lens possesses properties of an interference filter. In conditions that may mimic opacification, as found with cataract formation, such a filter may have stop zones with reflectance up to 1 in the band of visible light. (C) 2001 Optical Society of America.

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    Pierscionek B, Green RJ, Dolgobrodov SG. Intraocular light scatter as modeled through a stratified medium. Applied Optics. 2001 Dec;40(34):6340-6348.