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首页> 外文期刊>Physical review >Improved two-temperature modeling of ultrafast thermal and optical phenomena in continuous and nanostructured metal films
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Improved two-temperature modeling of ultrafast thermal and optical phenomena in continuous and nanostructured metal films

机译:在连续和纳米结构金属膜中改进了超快热敏和光学现象的两温造型

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摘要

In this work, a pump-probe experiment is used to study the ultrafast dynamics of heat transfer in thin gold films and gold nanostructures on glass substrates, following local heating by ultrashort laser pulses. Full spectrotemporal differential reflectivity and transmission maps were obtained for different film thicknesses (30, 50, 80, 150, and 200 nm) and different laser fiuences (0.38 to 9.5 Jm~(-2)). For arrays of gold nanorods, the two orthogonal probe polarizations were also acquired. We propose an improved model for these phenomena based on a modified two-temperature model that integrates thermal conduction and the three-dimensional finite element method model lo link the spatiotemporal temperature maps to the spectrotemporal optical response maps. The impact of an underlying titanium adhesion layer is reported. Excellent agreement between numerical and experimental data for both the gold films and the nanostructures is shown.
机译:在这项工作中,泵探针实验用于研究薄金薄膜和玻璃基材上的金纳米结构的超快动态,如超短的激光脉冲在局部加热之后。为不同的膜厚度(30,50,80,150和200nm)和不同的激光(0.38至9.5Jm〜(-2))获得全光射仪差分反射率和透射图。对于金纳米棒阵列,还获得了两个正交的探针偏振。基于改进的双温度模型,我们提出了一种改进的这些现象模型,该模型集成了热传导和三维有限元方法模型Lo将时空温度图与光谱仪光学响应图相结合。报道了底层粘附层的影响。显示了金膜和纳米结构的数值和实验数据之间的良好一致性。

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  • 来源
    《Physical review》 |2020年第15期|155127.1-155127.12|共12页
  • 作者

    P. Bresson; J-F. Bryche; M. Besbes; J. Moreau; P-L. Karsenti; P. G. Charette; D. Morris; M. Canva;

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    Laboratoire Nanotechnologies Nanosvstemes (LN2) - CNRS UMI-3463 Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Universite Paris-Saclay Institut d'Optique Graduate School CNRS Laboratoire Charles Fabry 91127 Palaiseau France;

    Laboratoire Nanotechnologies Nanosvstemes (LN2) - CNRS UMI-3463 Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada;

    Universite Paris-Saclay Institut d'Optique Graduate School CNRS Laboratoire Charles Fabry 91127 Palaiseau France;

    Universite Paris-Saclay Institut d'Optique Graduate School CNRS Laboratoire Charles Fabry 91127 Palaiseau France;

    Faculte des Sciences - Universite de Sherbrooke - Sherbrooke Canada;

    Laboratoire Nanotechnologies Nanosvstemes (LN2) - CNRS UMI-3463 Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada;

    Laboratoire Nanotechnologies Nanosvstemes (LN2) - CNRS UMI-3463 Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Faculte des Sciences - Universite de Sherbrooke - Sherbrooke Canada;

    Laboratoire Nanotechnologies Nanosvstemes (LN2) - CNRS UMI-3463 Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada Institut Interdisciplinaire d'Innovation Technologique (3IT) Universite de Sherbrooke 3000 Boulevard Universite Sherbrooke J1K OA5 Quebec Canada;

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