Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering

Yaroslava Andreeva, Vladislav Koval, Maksim Sergeev, Vadim P. Veiko, Nathalie Destouches, Francis Vocanson, Hongfeng Ma, Anton Loshachenko, Tatiana E. Itina

    Результат исследований: Научные публикации в периодических изданияхстатья

    Выдержка

    In this article, we propose a novel approach for dielectric nanograting fabrication by direct laser patterning. Possibilities of a well-controlled ultra-short laser recording of Ag-SiO2 nanocomposite gratings and their optical properties are examined. The mechanisms of laser processing involve silver nanoparticle growth in nanoporous silica glass films and laser interference-based formation of a periodic grating-like nanorelief. It is shown that laser energy should stay below the surface ”grooves” formation threshold for laser-inscription of the interference-based grating. Otherwise, another periodic structure oriented parallel to the incident laser polarization appears to erase the interference pattern. The parameter windows required for the controlled fabrication of the obtained structures are determined. The required threshold decay with the number of applied laser pulses is explained by a similarity in the roles of the nanoparticle absorption and surface defect accumulation typically leading to such dependencies. The optical properties of the obtained gratings are shown to depend on the angle between the incidence plane and the grating direction. When these directions coincide, a signal enhancement with a period-dependent blue-shift is revealed in the diffuse scattering spectra. When these directions are perpendicular, the signal is less enhanced, and a red shift is observed. The observed results are promising in short laser fabrication of different optical components, such as reflective optical filters.

    Язык оригиналаанглийский
    Номер статьи105840
    ЖурналOptics and Lasers in Engineering
    Том124
    Ранняя дата в режиме онлайн29 авг 2019
    DOI
    СостояниеЭлектронная публикация перед печатью - 29 авг 2019

    Отпечаток

    Nanocomposites
    nanocomposites
    Lasers
    lasers
    gratings
    Fabrication
    Laser recording
    Optical properties
    interference
    fabrication
    Nanoparticles
    Optical filters
    Periodic structures
    Surface defects
    Fused silica
    optical properties
    Silver
    nanoparticles
    thresholds
    optical filters

    Предметные области Scopus

    • Электроника, оптика и магнитные материалы
    • Атомная и молекулярная физика и оптика
    • Общее машиностроение
    • Электротехника и электроника

    Цитировать

    Andreeva, Y., Koval, V., Sergeev, M., Veiko, V. P., Destouches, N., Vocanson, F., ... Itina, T. E. (2020). Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering. Optics and Lasers in Engineering, 124, [105840]. https://doi.org/10.1016/j.optlaseng.2019.105840
    Andreeva, Yaroslava ; Koval, Vladislav ; Sergeev, Maksim ; Veiko, Vadim P. ; Destouches, Nathalie ; Vocanson, Francis ; Ma, Hongfeng ; Loshachenko, Anton ; Itina, Tatiana E. / Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering. В: Optics and Lasers in Engineering. 2020 ; Том 124.
    @article{d6b7599525fc43b3af42dba6972b2509,
    title = "Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering",
    abstract = "In this article, we propose a novel approach for dielectric nanograting fabrication by direct laser patterning. Possibilities of a well-controlled ultra-short laser recording of Ag-SiO2 nanocomposite gratings and their optical properties are examined. The mechanisms of laser processing involve silver nanoparticle growth in nanoporous silica glass films and laser interference-based formation of a periodic grating-like nanorelief. It is shown that laser energy should stay below the surface ”grooves” formation threshold for laser-inscription of the interference-based grating. Otherwise, another periodic structure oriented parallel to the incident laser polarization appears to erase the interference pattern. The parameter windows required for the controlled fabrication of the obtained structures are determined. The required threshold decay with the number of applied laser pulses is explained by a similarity in the roles of the nanoparticle absorption and surface defect accumulation typically leading to such dependencies. The optical properties of the obtained gratings are shown to depend on the angle between the incidence plane and the grating direction. When these directions coincide, a signal enhancement with a period-dependent blue-shift is revealed in the diffuse scattering spectra. When these directions are perpendicular, the signal is less enhanced, and a red shift is observed. The observed results are promising in short laser fabrication of different optical components, such as reflective optical filters.",
    keywords = "Laser fabrication, Laser surface structuring, Nanocomposites, Nanoparticles, Silica glass",
    author = "Yaroslava Andreeva and Vladislav Koval and Maksim Sergeev and Veiko, {Vadim P.} and Nathalie Destouches and Francis Vocanson and Hongfeng Ma and Anton Loshachenko and Itina, {Tatiana E.}",
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    Andreeva, Y, Koval, V, Sergeev, M, Veiko, VP, Destouches, N, Vocanson, F, Ma, H, Loshachenko, A & Itina, TE 2020, 'Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering', Optics and Lasers in Engineering, том. 124, 105840. https://doi.org/10.1016/j.optlaseng.2019.105840

    Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering. / Andreeva, Yaroslava; Koval, Vladislav; Sergeev, Maksim; Veiko, Vadim P.; Destouches, Nathalie; Vocanson, Francis; Ma, Hongfeng; Loshachenko, Anton; Itina, Tatiana E.

    В: Optics and Lasers in Engineering, Том 124, 105840, 01.2020.

    Результат исследований: Научные публикации в периодических изданияхстатья

    TY - JOUR

    T1 - Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering

    AU - Andreeva, Yaroslava

    AU - Koval, Vladislav

    AU - Sergeev, Maksim

    AU - Veiko, Vadim P.

    AU - Destouches, Nathalie

    AU - Vocanson, Francis

    AU - Ma, Hongfeng

    AU - Loshachenko, Anton

    AU - Itina, Tatiana E.

    PY - 2019/8/29

    Y1 - 2019/8/29

    N2 - In this article, we propose a novel approach for dielectric nanograting fabrication by direct laser patterning. Possibilities of a well-controlled ultra-short laser recording of Ag-SiO2 nanocomposite gratings and their optical properties are examined. The mechanisms of laser processing involve silver nanoparticle growth in nanoporous silica glass films and laser interference-based formation of a periodic grating-like nanorelief. It is shown that laser energy should stay below the surface ”grooves” formation threshold for laser-inscription of the interference-based grating. Otherwise, another periodic structure oriented parallel to the incident laser polarization appears to erase the interference pattern. The parameter windows required for the controlled fabrication of the obtained structures are determined. The required threshold decay with the number of applied laser pulses is explained by a similarity in the roles of the nanoparticle absorption and surface defect accumulation typically leading to such dependencies. The optical properties of the obtained gratings are shown to depend on the angle between the incidence plane and the grating direction. When these directions coincide, a signal enhancement with a period-dependent blue-shift is revealed in the diffuse scattering spectra. When these directions are perpendicular, the signal is less enhanced, and a red shift is observed. The observed results are promising in short laser fabrication of different optical components, such as reflective optical filters.

    AB - In this article, we propose a novel approach for dielectric nanograting fabrication by direct laser patterning. Possibilities of a well-controlled ultra-short laser recording of Ag-SiO2 nanocomposite gratings and their optical properties are examined. The mechanisms of laser processing involve silver nanoparticle growth in nanoporous silica glass films and laser interference-based formation of a periodic grating-like nanorelief. It is shown that laser energy should stay below the surface ”grooves” formation threshold for laser-inscription of the interference-based grating. Otherwise, another periodic structure oriented parallel to the incident laser polarization appears to erase the interference pattern. The parameter windows required for the controlled fabrication of the obtained structures are determined. The required threshold decay with the number of applied laser pulses is explained by a similarity in the roles of the nanoparticle absorption and surface defect accumulation typically leading to such dependencies. The optical properties of the obtained gratings are shown to depend on the angle between the incidence plane and the grating direction. When these directions coincide, a signal enhancement with a period-dependent blue-shift is revealed in the diffuse scattering spectra. When these directions are perpendicular, the signal is less enhanced, and a red shift is observed. The observed results are promising in short laser fabrication of different optical components, such as reflective optical filters.

    KW - Laser fabrication

    KW - Laser surface structuring

    KW - Nanocomposites

    KW - Nanoparticles

    KW - Silica glass

    UR - http://www.scopus.com/inward/record.url?scp=85071398002&partnerID=8YFLogxK

    U2 - 10.1016/j.optlaseng.2019.105840

    DO - 10.1016/j.optlaseng.2019.105840

    M3 - Article

    AN - SCOPUS:85071398002

    VL - 124

    JO - Optics and Lasers in Engineering

    JF - Optics and Lasers in Engineering

    SN - 0143-8166

    M1 - 105840

    ER -

    Andreeva Y, Koval V, Sergeev M, Veiko VP, Destouches N, Vocanson F и соавт. Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering. Optics and Lasers in Engineering. 2020 Янв.;124. 105840. https://doi.org/10.1016/j.optlaseng.2019.105840